C++程序
|
8808行
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336.78 KB
#include <stdio.h>
#include <assert.h>
#include <malloc.h> // memalign
#include <string.h> // memset
#include <math.h> // isnormal
typedef unsigned char UChar;
typedef unsigned short int UShort;
typedef unsigned int UInt;
typedef signed int Int;
typedef unsigned char UChar;
typedef unsigned long long int ULong;
typedef signed long long int Long;
typedef double Double;
typedef float Float;
typedef unsigned char Bool;
#define False ((Bool)0)
#define True ((Bool)1)
#define ITERS 1
typedef
enum { TyHF=1234, TySF, TyDF, TyB, TyH, TyS, TyD, TyNONE }
LaneTy;
union _V128 {
UChar u8[16];
UShort u16[8];
UInt u32[4];
ULong u64[2];
Float f32[4];
Double f64[2];
};
typedef union _V128 V128;
static inline UChar randUChar ( void )
{
static UInt seed = 80021;
seed = 1103515245 * seed + 12345;
return (seed >> 17) & 0xFF;
}
static ULong randULong ( LaneTy ty )
{
Int i;
ULong r = 0;
for (i = 0; i < 8; i++) {
r = (r << 8) | (ULong)(0xFF & randUChar());
}
return r;
}
/* Generates a random V128. Ensures that that it contains normalised
FP numbers when viewed as either F32x4 or F64x2, so that it is
reasonable to use in FP test cases. */
static void randV128 ( /*OUT*/V128* v, LaneTy ty )
{
static UInt nCalls = 0, nIters = 0;
Int i;
nCalls++;
while (1) {
nIters++;
for (i = 0; i < 16; i++) {
v->u8[i] = randUChar();
}
if (isnormal(v->f32[0]) && isnormal(v->f32[1]) && isnormal(v->f32[2])
&& isnormal(v->f32[3]) && isnormal(v->f64[0]) && isnormal(v->f64[1]))
break;
}
if (0 == (nCalls & 0xFF))
printf("randV128: %u calls, %u iters\n", nCalls, nIters);
}
static void showV128 ( V128* v )
{
Int i;
for (i = 15; i >= 0; i--)
printf("%02x", (Int)v->u8[i]);
}
static void showBlock ( const char* msg, V128* block, Int nBlock )
{
Int i;
printf("%s\n", msg);
for (i = 0; i < nBlock; i++) {
printf(" ");
showV128(&block[i]);
printf("\n");
}
}
__attribute__((unused))
static void* memalign16(size_t szB)
{
void* x;
x = memalign(16, szB);
assert(x);
assert(0 == ((16-1) & (unsigned long)x));
return x;
}
static ULong dup4x16 ( UInt x )
{
ULong r = x & 0xF;
r |= (r << 4);
r |= (r << 8);
r |= (r << 16);
r |= (r << 32);
return r;
}
// Generate a random double-precision number. About 1 time in 2,
// instead return a special value (+/- Inf, +/-Nan, denorm).
// This ensures that many of the groups of 4 calls here will
// return a special value.
static Double special_values[10];
static Bool special_values_initted = False;
static __attribute__((noinline))
Double negate ( Double d ) { return -d; }
static __attribute__((noinline))
Double divf64 ( Double x, Double y ) { return x/y; }
static __attribute__((noinline))
Double plusZero ( void ) { return 0.0; }
static __attribute__((noinline))
Double minusZero ( void ) { return negate(plusZero()); }
static __attribute__((noinline))
Double plusOne ( void ) { return 1.0; }
static __attribute__((noinline))
Double minusOne ( void ) { return negate(plusOne()); }
static __attribute__((noinline))
Double plusInf ( void ) { return 1.0 / 0.0; }
static __attribute__((noinline))
Double minusInf ( void ) { return negate(plusInf()); }
static __attribute__((noinline))
Double plusNaN ( void ) { return divf64(plusInf(),plusInf()); }
static __attribute__((noinline))
Double minusNaN ( void ) { return negate(plusNaN()); }
static __attribute__((noinline))
Double plusDenorm ( void ) { return 1.23e-315 / 1e3; }
static __attribute__((noinline))
Double minusDenorm ( void ) { return negate(plusDenorm()); }
static void ensure_special_values_initted ( void )
{
if (special_values_initted) return;
special_values[0] = plusZero();
special_values[1] = minusZero();
special_values[2] = plusOne();
special_values[3] = minusOne();
special_values[4] = plusInf();
special_values[5] = minusInf();
special_values[6] = plusNaN();
special_values[7] = minusNaN();
special_values[8] = plusDenorm();
special_values[9] = minusDenorm();
special_values_initted = True;
int i;
printf("\n");
for (i = 0; i < 10; i++) {
printf("special value %d = %e\n", i, special_values[i]);
}
printf("\n");
}
static Double randDouble ( void )
{
ensure_special_values_initted();
UChar c = randUChar();
if (c >= 128) {
// return a normal number most of the time.
// 0 .. 2^63-1
ULong u64 = randULong(TyDF);
// -2^62 .. 2^62-1
Long s64 = (Long)u64;
// -2^55 .. 2^55-1
s64 >>= (62-55);
// and now as a float
return (Double)s64;
}
c = randUChar() % 10;
return special_values[c];
}
static Float randFloat ( void )
{
ensure_special_values_initted();
UChar c = randUChar();
if (c >= 128) {
// return a normal number most of the time.
// 0 .. 2^63-1
ULong u64 = randULong(TyDF);
// -2^62 .. 2^62-1
Long s64 = (Long)u64;
// -2^25 .. 2^25-1
s64 >>= (62-25);
// and now as a float
return (Float)s64;
}
c = randUChar() % 10;
return special_values[c];
}
void randBlock_Doubles ( V128* block, Int nBlock )
{
Int i;
for (i = 0; i < nBlock; i++) {
block[i].f64[0] = randDouble();
block[i].f64[1] = randDouble();
}
}
void randBlock_Floats ( V128* block, Int nBlock )
{
Int i;
for (i = 0; i < nBlock; i++) {
block[i].f32[0] = randFloat();
block[i].f32[1] = randFloat();
block[i].f32[2] = randFloat();
block[i].f32[3] = randFloat();
}
}
/* ---------------------------------------------------------------- */
/* -- Parameterisable test macros -- */
/* ---------------------------------------------------------------- */
#define DO50(_action) \
do { \
Int _qq; for (_qq = 0; _qq < 50; _qq++) { _action ; } \
} while (0)
/* Note this also sets the destination register to a known value (0x55..55)
since it can sometimes be an input to the instruction too. */
#define GEN_UNARY_TEST(INSN,SUFFIXD,SUFFIXN) \
__attribute__((noinline)) \
static void test_##INSN##_##SUFFIXD##_##SUFFIXN ( LaneTy ty ) { \
Int i; \
for (i = 0; i < ITERS; i++) { \
V128 block[2+1]; \
memset(block, 0x55, sizeof(block)); \
randV128(&block[0], ty); \
randV128(&block[1], ty); \
__asm__ __volatile__( \
"mov x30, #0 ; msr fpsr, x30 ; " \
"ldr q7, [%0, #0] ; " \
"ldr q8, [%0, #16] ; " \
#INSN " v8." #SUFFIXD ", v7." #SUFFIXN " ; " \
"str q8, [%0, #16] ; " \
"mrs x30, fpsr ; str x30, [%0, #32] " \
: : "r"(&block[0]) : "memory", "v7", "v8", "x30" \
); \
printf(#INSN " v8." #SUFFIXD ", v7." #SUFFIXN); \
UInt fpsr = 0xFFFFFF60 & block[2].u32[0]; \
showV128(&block[0]); printf(" "); \
showV128(&block[1]); printf(" fpsr=%08x\n", fpsr); \
} \
}
/* Note this also sets the destination register to a known value (0x55..55)
since it can sometimes be an input to the instruction too. */
#define GEN_BINARY_TEST(INSN,SUFFIXD,SUFFIXN,SUFFIXM) \
__attribute__((noinline)) \
static void test_##INSN##_##SUFFIXD##_##SUFFIXN##_##SUFFIXM ( LaneTy ty ) { \
Int i; \
for (i = 0; i < ITERS; i++) { \
V128 block[3+1]; \
memset(block, 0x55, sizeof(block)); \
randV128(&block[0], ty); \
randV128(&block[1], ty); \
randV128(&block[2], ty); \
__asm__ __volatile__( \
"mov x30, #0 ; msr fpsr, x30 ; " \
"ldr q7, [%0, #0] ; " \
"ldr q8, [%0, #16] ; " \
"ldr q9, [%0, #32] ; " \
#INSN " v9." #SUFFIXD ", v7." #SUFFIXN ", v8." #SUFFIXM " ; " \
"str q9, [%0, #32] ; " \
"mrs x30, fpsr ; str x30, [%0, #48] " \
: : "r"(&block[0]) : "memory", "v7", "v8", "v9", "x30" \
); \
printf(#INSN " v9." #SUFFIXD \
", v7." #SUFFIXN ", v8." #SUFFIXM " "); \
UInt fpsr = 0xFFFFFF60 & block[3].u32[0]; \
showV128(&block[0]); printf(" "); \
showV128(&block[1]); printf(" "); \
showV128(&block[2]); printf(" fpsr=%08x\n", fpsr); \
} \
}
/* Note this also sets the destination register to a known value (0x55..55)
since it can sometimes be an input to the instruction too. */
#define GEN_SHIFT_TEST(INSN,SUFFIXD,SUFFIXN,AMOUNT) \
__attribute__((noinline)) \
static void test_##INSN##_##SUFFIXD##_##SUFFIXN##_##AMOUNT ( LaneTy ty ) { \
Int i; \
for (i = 0; i < ITERS; i++) { \
V128 block[2+1]; \
memset(block, 0x55, sizeof(block)); \
randV128(&block[0], ty); \
randV128(&block[1], ty); \
__asm__ __volatile__( \
"mov x30, #0 ; msr fpsr, x30 ; " \
"ldr q7, [%0, #0] ; " \
"ldr q8, [%0, #16] ; " \
#INSN " v8." #SUFFIXD ", v7." #SUFFIXN ", #" #AMOUNT " ; " \
"str q8, [%0, #16] ; " \
"mrs x30, fpsr ; str x30, [%0, #32] " \
: : "r"(&block[0]) : "memory", "v7", "v8", "x30" \
); \
printf(#INSN " v8." #SUFFIXD ", v7." #SUFFIXN ", #" #AMOUNT " "); \
UInt fpsr = 0xFFFFFF60 & block[2].u32[0]; \
showV128(&block[0]); printf(" "); \
showV128(&block[1]); printf(" fpsr=%08x\n", fpsr); \
} \
}
/* Generate a test that involves one integer reg and one vector reg,
with no bias as towards which is input or output. */
#define GEN_ONEINT_ONEVEC_TEST(TESTNAME,INSN,INTREGNO,VECREGNO) \
__attribute__((noinline)) \
static void test_##TESTNAME ( LaneTy ty ) { \
Int i; \
assert(INTREGNO != 30); \
for (i = 0; i < ITERS; i++) { \
V128 block[4+1]; \
memset(block, 0x55, sizeof(block)); \
randV128(&block[0], ty); \
randV128(&block[1], ty); \
randV128(&block[2], ty); \
randV128(&block[3], ty); \
__asm__ __volatile__( \
"mov x30, #0 ; msr fpsr, x30 ; " \
"ldr q"#VECREGNO", [%0, #0] ; " \
"ldr x"#INTREGNO", [%0, #16] ; " \
INSN " ; " \
"str q"#VECREGNO", [%0, #32] ; " \
"str x"#INTREGNO", [%0, #48] ; " \
"mrs x30, fpsr ; str x30, [%0, #64] " \
: : "r"(&block[0]) : "memory", "v"#VECREGNO, "x"#INTREGNO, "x30" \
); \
printf(INSN " "); \
UInt fpsr = 0xFFFFFF60 & block[4].u32[0]; \
showV128(&block[0]); printf(" "); \
showV128(&block[1]); printf(" "); \
showV128(&block[2]); printf(" "); \
showV128(&block[3]); printf(" fpsr=%08x\n", fpsr); \
} \
}
/* Generate a test that involves two vector regs,
with no bias as towards which is input or output.
It's OK to use x10 as scratch.*/
#define GEN_TWOVEC_TEST(TESTNAME,INSN,VECREG1NO,VECREG2NO) \
__attribute__((noinline)) \
static void test_##TESTNAME ( LaneTy ty ) { \
Int i; \
for (i = 0; i < ITERS; i++) { \
V128 block[4+1]; \
memset(block, 0x55, sizeof(block)); \
randV128(&block[0], ty); \
randV128(&block[1], ty); \
randV128(&block[2], ty); \
randV128(&block[3], ty); \
__asm__ __volatile__( \
"mov x30, #0 ; msr fpsr, x30 ; " \
"ldr q"#VECREG1NO", [%0, #0] ; " \
"ldr q"#VECREG2NO", [%0, #16] ; " \
INSN " ; " \
"str q"#VECREG1NO", [%0, #32] ; " \
"str q"#VECREG2NO", [%0, #48] ; " \
"mrs x30, fpsr ; str x30, [%0, #64] " \
: : "r"(&block[0]) \
: "memory", "v"#VECREG1NO, "v"#VECREG2NO, "x10", "x30" \
); \
printf(INSN " "); \
UInt fpsr = 0xFFFFFF60 & block[4].u32[0]; \
showV128(&block[0]); printf(" "); \
showV128(&block[1]); printf(" "); \
showV128(&block[2]); printf(" "); \
showV128(&block[3]); printf(" fpsr=%08x\n", fpsr); \
} \
}
/* Generate a test that involves three vector regs,
with no bias as towards which is input or output. It's also OK
to use v16, v17, v18 as scratch. */
#define GEN_THREEVEC_TEST(TESTNAME,INSN,VECREG1NO,VECREG2NO,VECREG3NO) \
__attribute__((noinline)) \
static void test_##TESTNAME ( LaneTy ty ) { \
Int i; \
for (i = 0; i < ITERS; i++) { \
V128 block[6+1]; \
memset(block, 0x55, sizeof(block)); \
randV128(&block[0], ty); \
randV128(&block[1], ty); \
randV128(&block[2], ty); \
randV128(&block[3], ty); \
randV128(&block[4], ty); \
randV128(&block[5], ty); \
__asm__ __volatile__( \
"mov x30, #0 ; msr fpsr, x30 ; " \
"ldr q"#VECREG1NO", [%0, #0] ; " \
"ldr q"#VECREG2NO", [%0, #16] ; " \
"ldr q"#VECREG3NO", [%0, #32] ; " \
INSN " ; " \
"str q"#VECREG1NO", [%0, #48] ; " \
"str q"#VECREG2NO", [%0, #64] ; " \
"str q"#VECREG3NO", [%0, #80] ; " \
"mrs x30, fpsr ; str x30, [%0, #96] " \
: : "r"(&block[0]) \
: "memory", "v"#VECREG1NO, "v"#VECREG2NO, "v"#VECREG3NO, \
"v16", "v17", "v18", "x30" \
); \
printf(INSN " "); \
UInt fpsr = 0xFFFFFF60 & block[6].u32[0]; \
showV128(&block[0]); printf(" "); \
showV128(&block[1]); printf(" "); \
showV128(&block[2]); printf(" "); \
showV128(&block[3]); printf(" "); \
showV128(&block[4]); printf(" "); \
showV128(&block[5]); printf(" fpsr=%08x\n", fpsr); \
} \
}
/* Generate a test that involves four vector regs,
with no bias as towards which is input or output. It's also OK
to use v16, v17, v18 as scratch. */
#define GEN_FOURVEC_TEST(TESTNAME,INSN,VECREG1NO,VECREG2NO, \
VECREG3NO,VECREG4NO) \
__attribute__((noinline)) \
static void test_##TESTNAME ( LaneTy ty ) { \
Int i; \
for (i = 0; i < ITERS; i++) { \
V128 block[8+1]; \
memset(block, 0x55, sizeof(block)); \
randV128(&block[0], ty); \
randV128(&block[1], ty); \
randV128(&block[2], ty); \
randV128(&block[3], ty); \
randV128(&block[4], ty); \
randV128(&block[5], ty); \
randV128(&block[6], ty); \
randV128(&block[7], ty); \
__asm__ __volatile__( \
"mov x30, #0 ; msr fpsr, x30 ; " \
"ldr q"#VECREG1NO", [%0, #0] ; " \
"ldr q"#VECREG2NO", [%0, #16] ; " \
"ldr q"#VECREG3NO", [%0, #32] ; " \
"ldr q"#VECREG4NO", [%0, #48] ; " \
INSN " ; " \
"str q"#VECREG1NO", [%0, #64] ; " \
"str q"#VECREG2NO", [%0, #80] ; " \
"str q"#VECREG3NO", [%0, #96] ; " \
"str q"#VECREG4NO", [%0, #112] ; " \
"mrs x30, fpsr ; str x30, [%0, #128] " \
: : "r"(&block[0]) \
: "memory", "v"#VECREG1NO, "v"#VECREG2NO, \
"v"#VECREG3NO, "v"#VECREG4NO, \
"v16", "v17", "v18", "x30" \
); \
printf(INSN " "); \
UInt fpsr = 0xFFFFFF60 & block[8].u32[0]; \
showV128(&block[0]); printf(" "); \
showV128(&block[1]); printf(" "); \
showV128(&block[2]); printf(" "); \
showV128(&block[3]); printf(" "); \
showV128(&block[4]); printf(" "); \
showV128(&block[5]); printf(" "); \
showV128(&block[6]); printf(" "); \
showV128(&block[7]); printf(" fpsr=%08x\n", fpsr); \
} \
}
/* ---------------------------------------------------------------- */
/* -- Test functions and non-parameterisable test macros -- */
/* ---------------------------------------------------------------- */
void test_UMINV ( void )
{
int i;
V128 block[2];
/* -- 4s -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyS);
randV128(&block[1], TyS);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"uminv s8, v7.4s ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("UMINV v8, v7.4s ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 8h -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyH);
randV128(&block[1], TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"uminv h8, v7.8h ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("UMINV h8, v7.8h ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 4h -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyH);
randV128(&block[1], TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"uminv h8, v7.4h ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("UMINV h8, v7.4h ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 16b -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyB);
randV128(&block[1], TyB);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"uminv b8, v7.16b ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("UMINV b8, v7.16b ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 8b -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyB);
randV128(&block[1], TyB);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"uminv b8, v7.8b ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("UMINV b8, v7.8b ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
}
void test_UMAXV ( void )
{
int i;
V128 block[2];
/* -- 4s -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyS);
randV128(&block[1], TyS);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"umaxv s8, v7.4s ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("UMAXV v8, v7.4s ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 8h -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyH);
randV128(&block[1], TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"umaxv h8, v7.8h ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("UMAXV h8, v7.8h ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 4h -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyH);
randV128(&block[1], TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"umaxv h8, v7.4h ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("UMAXV h8, v7.4h ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 16b -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyB);
randV128(&block[1], TyB);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"umaxv b8, v7.16b ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("UMAXV b8, v7.16b ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 8b -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyB);
randV128(&block[1], TyB);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"umaxv b8, v7.8b ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("UMAXV b8, v7.8b ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
}
void test_INS_general ( void )
{
V128 block[3];
/* -- D[0..1] -- */
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyD);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.d[0], x19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.u64[0],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyD);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.d[1], x19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.d[1],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
/* -- S[0..3] -- */
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyS);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.s[0], w19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.s[0],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyS);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.s[1], w19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.s[1],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyS);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.s[2], w19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.s[2],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyS);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.s[3], w19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.s[3],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
/* -- H[0..7] -- */
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.h[0], w19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.h[0],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.h[1], w19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.h[1],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.h[2], w19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.h[2],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.h[3], w19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.h[3],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.h[4], w19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.h[4],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.h[5], w19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.h[5],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.h[6], w19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.h[6],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.h[7], w19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.h[7],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
/* -- B[0,15] -- */
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyB);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.b[0], w19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.b[0],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
memset(&block, 0x55, sizeof(block));
block[1].u64[0] = randULong(TyB);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"ldr x19, [%0, #16] ; "
"ins v7.b[15], w19 ; "
"str q7, [%0, #32] "
: : "r"(&block[0]) : "memory", "x19", "v7"
);
printf("INS v7.b[15],x19 ");
showV128(&block[0]); printf(" %016llx ", block[1].u64[0]);
showV128(&block[2]); printf("\n");
}
void test_SMINV ( void )
{
int i;
V128 block[2];
/* -- 4s -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyS);
randV128(&block[1], TyS);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"sminv s8, v7.4s ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("SMINV v8, v7.4s ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 8h -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyH);
randV128(&block[1], TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"sminv h8, v7.8h ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("SMINV h8, v7.8h ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 4h -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyH);
randV128(&block[1], TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"sminv h8, v7.4h ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("SMINV h8, v7.4h ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 16b -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyB);
randV128(&block[1], TyB);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"sminv b8, v7.16b ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("SMINV b8, v7.16b ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 8b -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyB);
randV128(&block[1], TyB);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"sminv b8, v7.8b ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("SMINV b8, v7.8b ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
}
void test_SMAXV ( void )
{
int i;
V128 block[2];
/* -- 4s -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyS);
randV128(&block[1], TyS);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"smaxv s8, v7.4s ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("SMAXV v8, v7.4s ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 8h -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyH);
randV128(&block[1], TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"smaxv h8, v7.8h ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("SMAXV h8, v7.8h ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 4h -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyH);
randV128(&block[1], TyH);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"smaxv h8, v7.4h ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("SMAXV h8, v7.4h ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 16b -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyB);
randV128(&block[1], TyB);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"smaxv b8, v7.16b ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("SMAXV b8, v7.16b ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
/* -- 8b -- */
for (i = 0; i < 10; i++) {
memset(&block, 0x55, sizeof(block));
randV128(&block[0], TyB);
randV128(&block[1], TyB);
__asm__ __volatile__(
"ldr q7, [%0, #0] ; "
"smaxv b8, v7.8b ; "
"str q8, [%0, #16] "
: : "r"(&block[0]) : "memory", "v7", "v8"
);
printf("SMAXV b8, v7.8b ");
showV128(&block[0]); printf(" ");
showV128(&block[1]); printf("\n");
}
}
//======== FCCMP_D ========//
#define GEN_test_FCCMP_D_D_0xF_EQ \
__attribute__((noinline)) static void test_FCCMP_D_D_0xF_EQ ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMP_D_D_0xF_EQ before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmp d29, d11, #0xf, eq; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMP_D_D_0xF_EQ after", &block[0], 4); \
printf("\n"); \
}
#define GEN_test_FCCMP_D_D_0xF_NE \
__attribute__((noinline)) static void test_FCCMP_D_D_0xF_NE ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMP_D_D_0xF_NE before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmp d29, d11, #0xf, ne; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMP_D_D_0xF_NE after", &block[0], 4); \
printf("\n"); \
}
#define GEN_test_FCCMP_D_D_0x0_EQ \
__attribute__((noinline)) static void test_FCCMP_D_D_0x0_EQ ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMP_D_D_0x0_EQ before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmp d29, d11, #0x0, eq; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMP_D_D_0x0_EQ after", &block[0], 4); \
printf("\n"); \
}
#define GEN_test_FCCMP_D_D_0x0_NE \
__attribute__((noinline)) static void test_FCCMP_D_D_0x0_NE ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMP_D_D_0x0_NE before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmp d29, d11, #0x0, ne; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMP_D_D_0x0_NE after", &block[0], 4); \
printf("\n"); \
}
//======== FCCMP_S ========//
#define GEN_test_FCCMP_S_S_0xF_EQ \
__attribute__((noinline)) static void test_FCCMP_S_S_0xF_EQ ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMP_S_S_0xF_EQ before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmp s29, s11, #0xf, eq; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMP_S_S_0xF_EQ after", &block[0], 4); \
printf("\n"); \
}
#define GEN_test_FCCMP_S_S_0xF_NE \
__attribute__((noinline)) static void test_FCCMP_S_S_0xF_NE ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMP_S_S_0xF_NE before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmp s29, s11, #0xf, ne; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMP_S_S_0xF_NE after", &block[0], 4); \
printf("\n"); \
}
#define GEN_test_FCCMP_S_S_0x0_EQ \
__attribute__((noinline)) static void test_FCCMP_S_S_0x0_EQ ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMP_S_S_0x0_EQ before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmp s29, s11, #0x0, eq; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMP_S_S_0x0_EQ after", &block[0], 4); \
printf("\n"); \
}
#define GEN_test_FCCMP_S_S_0x0_NE \
__attribute__((noinline)) static void test_FCCMP_S_S_0x0_NE ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMP_S_S_0x0_NE before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmp s29, s11, #0x0, ne; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMP_S_S_0x0_NE after", &block[0], 4); \
printf("\n"); \
}
//======== FCCMPE_D ========//
#define GEN_test_FCCMPE_D_D_0xF_EQ \
__attribute__((noinline)) static void test_FCCMPE_D_D_0xF_EQ ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMPE_D_D_0xF_EQ before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmpe d29, d11, #0xf, eq; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMPE_D_D_0xF_EQ after", &block[0], 4); \
printf("\n"); \
}
#define GEN_test_FCCMPE_D_D_0xF_NE \
__attribute__((noinline)) static void test_FCCMPE_D_D_0xF_NE ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMPE_D_D_0xF_NE before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmpe d29, d11, #0xf, ne; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMPE_D_D_0xF_NE after", &block[0], 4); \
printf("\n"); \
}
#define GEN_test_FCCMPE_D_D_0x0_EQ \
__attribute__((noinline)) static void test_FCCMPE_D_D_0x0_EQ ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMPE_D_D_0x0_EQ before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmpe d29, d11, #0x0, eq; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMPE_D_D_0x0_EQ after", &block[0], 4); \
printf("\n"); \
}
#define GEN_test_FCCMPE_D_D_0x0_NE \
__attribute__((noinline)) static void test_FCCMPE_D_D_0x0_NE ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMPE_D_D_0x0_NE before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmpe d29, d11, #0x0, ne; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMPE_D_D_0x0_NE after", &block[0], 4); \
printf("\n"); \
}
//======== FCCMPE_S ========//
#define GEN_test_FCCMPE_S_S_0xF_EQ \
__attribute__((noinline)) static void test_FCCMPE_S_S_0xF_EQ ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMP_S_S_0xF_EQ before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmpe s29, s11, #0xf, eq; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMPE_S_S_0xF_EQ after", &block[0], 4); \
printf("\n"); \
}
#define GEN_test_FCCMPE_S_S_0xF_NE \
__attribute__((noinline)) static void test_FCCMPE_S_S_0xF_NE ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMPE_S_S_0xF_NE before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmpe s29, s11, #0xf, ne; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMPE_S_S_0xF_NE after", &block[0], 4); \
printf("\n"); \
}
#define GEN_test_FCCMPE_S_S_0x0_EQ \
__attribute__((noinline)) static void test_FCCMPE_S_S_0x0_EQ ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMP_S_S_0x0_EQ before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmpe s29, s11, #0x0, eq; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMPE_S_S_0x0_EQ after", &block[0], 4); \
printf("\n"); \
}
#define GEN_test_FCCMPE_S_S_0x0_NE \
__attribute__((noinline)) static void test_FCCMPE_S_S_0x0_NE ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCCMP_S_S_0x0_NE before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fccmpe s29, s11, #0x0, ne; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCCMPE_S_S_0x0_NE after", &block[0], 4); \
printf("\n"); \
}
//======== FCMEQ_D_D_D ========//
#define GEN_test_FCMEQ_D_D_D \
__attribute__((noinline)) static void test_FCMEQ_D_D_D ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMEQ_D_D_D before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmeq d29, d11, d9; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMEQ_D_D_D after", &block[0], 4); \
printf("\n"); \
}
//======== FCMEQ_S_S_S ========//
#define GEN_test_FCMEQ_S_S_S \
__attribute__((noinline)) static void test_FCMEQ_S_S_S ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMEQ_S_S_S before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmeq s29, s11, s9; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMEQ_S_S_S after", &block[0], 4); \
printf("\n"); \
}
//======== FCMGE_D_D_D ========//
#define GEN_test_FCMGE_D_D_D \
__attribute__((noinline)) static void test_FCMGE_D_D_D ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMGE_D_D_D before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmge d29, d11, d9; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMGE_D_D_D after", &block[0], 4); \
printf("\n"); \
}
//======== FCMGE_S_S_S ========//
#define GEN_test_FCMGE_S_S_S \
__attribute__((noinline)) static void test_FCMGE_S_S_S ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMGE_S_S_S before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmge s29, s11, s9; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMGE_S_S_S after", &block[0], 4); \
printf("\n"); \
}
//======== FCMGT_D_D_D ========//
#define GEN_test_FCMGT_D_D_D \
__attribute__((noinline)) static void test_FCMGT_D_D_D ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMGT_D_D_D before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmgt d29, d11, d9; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMGT_D_D_D after", &block[0], 4); \
printf("\n"); \
}
//======== FCMGT_S_S_S ========//
#define GEN_test_FCMGT_S_S_S \
__attribute__((noinline)) static void test_FCMGT_S_S_S ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMGT_S_S_S before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmgt s29, s11, s9; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMGT_S_S_S after", &block[0], 4); \
printf("\n"); \
}
//======== FACGT_D_D_D ========//
#define GEN_test_FACGT_D_D_D \
__attribute__((noinline)) static void test_FACGT_D_D_D ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FACGT_D_D_D before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"facgt d29, d11, d9; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FACGT_D_D_D after", &block[0], 4); \
printf("\n"); \
}
//======== FACGT_S_S_S ========//
#define GEN_test_FACGT_S_S_S \
__attribute__((noinline)) static void test_FACGT_S_S_S ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FACGT_S_S_S before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"facgt s29, s11, s9; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FACGT_S_S_S after", &block[0], 4); \
printf("\n"); \
}
//======== FACGE_D_D_D ========//
#define GEN_test_FACGE_D_D_D \
__attribute__((noinline)) static void test_FACGE_D_D_D ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FACGE_D_D_D before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"facge d29, d11, d9; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FACGE_D_D_D after", &block[0], 4); \
printf("\n"); \
}
//======== FACGE_S_S_S ========//
#define GEN_test_FACGE_S_S_S \
__attribute__((noinline)) static void test_FACGE_S_S_S ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FACGE_S_S_S before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"facge s29, s11, s9; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FACGE_S_S_S after", &block[0], 4); \
printf("\n"); \
}
//======== FCMEQ_D_D_Z ========//
#define GEN_test_FCMEQ_D_D_Z \
__attribute__((noinline)) static void test_FCMEQ_D_D_Z ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMEQ_D_D_Z before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmeq d29, d11, #0; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMEQ_D_D_Z after", &block[0], 4); \
printf("\n"); \
}
//======== FCMEQ_S_S_Z ========//
#define GEN_test_FCMEQ_S_S_Z \
__attribute__((noinline)) static void test_FCMEQ_S_S_Z ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMEQ_S_S_Z before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmeq s29, s11, #0; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMEQ_S_S_Z after", &block[0], 4); \
printf("\n"); \
}
//======== FCMGE_D_D_Z ========//
#define GEN_test_FCMGE_D_D_Z \
__attribute__((noinline)) static void test_FCMGE_D_D_Z ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMGE_D_D_Z before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmge d29, d11, #0; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMGE_D_D_Z after", &block[0], 4); \
printf("\n"); \
}
//======== FCMGE_S_S_Z ========//
#define GEN_test_FCMGE_S_S_Z \
__attribute__((noinline)) static void test_FCMGE_S_S_Z ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMGE_S_S_Z before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmge s29, s11, #0; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMGE_S_S_Z after", &block[0], 4); \
printf("\n"); \
}
//======== FCMGT_D_D_Z ========//
#define GEN_test_FCMGT_D_D_Z \
__attribute__((noinline)) static void test_FCMGT_D_D_Z ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMGT_D_D_Z before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmgt d29, d11, #0; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMGT_D_D_Z after", &block[0], 4); \
printf("\n"); \
}
//======== FCMGT_S_S_Z ========//
#define GEN_test_FCMGT_S_S_Z \
__attribute__((noinline)) static void test_FCMGT_S_S_Z ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMGT_S_S_Z before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmgt s29, s11, #0; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMGT_S_S_Z after", &block[0], 4); \
printf("\n"); \
}
//======== FCMLE_D_D_Z ========//
#define GEN_test_FCMLE_D_D_Z \
__attribute__((noinline)) static void test_FCMLE_D_D_Z ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMLE_D_D_Z before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmle d29, d11, #0; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMLE_D_D_Z after", &block[0], 4); \
printf("\n"); \
}
//======== FCMLE_S_S_Z ========//
#define GEN_test_FCMLE_S_S_Z \
__attribute__((noinline)) static void test_FCMLE_S_S_Z ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMLE_S_S_Z before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmle s29, s11, #0; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMLE_S_S_Z after", &block[0], 4); \
printf("\n"); \
}
//======== FCMLT_D_D_Z ========//
#define GEN_test_FCMLT_D_D_Z \
__attribute__((noinline)) static void test_FCMLT_D_D_Z ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMLT_D_D_Z before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmlt d29, d11, #0; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMLT_D_D_Z after", &block[0], 4); \
printf("\n"); \
}
//======== FCMLT_S_S_Z ========//
#define GEN_test_FCMLT_S_S_Z \
__attribute__((noinline)) static void test_FCMLT_S_S_Z ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMLT_S_S_Z before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmlt s29, s11, #0; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMLT_S_S_Z after", &block[0], 4); \
printf("\n"); \
}
//======== FCMP_D_D ========//
#define GEN_test_FCMP_D_D \
__attribute__((noinline)) static void test_FCMP_D_D ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMP_D_D before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmp d29, d11; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMP_D_D after", &block[0], 4); \
printf("\n"); \
}
//======== FCMP_S_S ========//
#define GEN_test_FCMP_S_S \
__attribute__((noinline)) static void test_FCMP_S_S ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMP_S_S before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmp s29, s11; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMP_S_S after", &block[0], 4); \
printf("\n"); \
}
//======== FCMPE_D_D ========//
#define GEN_test_FCMPE_D_D \
__attribute__((noinline)) static void test_FCMPE_D_D ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMPE_D_D before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmpe d29, d11; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMPE_D_D after", &block[0], 4); \
printf("\n"); \
}
//======== FCMPE_S_S ========//
#define GEN_test_FCMPE_S_S \
__attribute__((noinline)) static void test_FCMPE_S_S ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMPE_S_S before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmpe s29, s11; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMPE_S_S after", &block[0], 4); \
printf("\n"); \
}
//======== FCMP_D_Z ========//
#define GEN_test_FCMP_D_Z \
__attribute__((noinline)) static void test_FCMP_D_Z ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMP_D_Z before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmp d29, #0; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMP_D_Z after", &block[0], 4); \
printf("\n"); \
}
//======== FCMP_S_Z ========//
#define GEN_test_FCMP_S_Z \
__attribute__((noinline)) static void test_FCMP_S_Z ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMP_S_Z before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmp s29, #0; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMP_S_Z after", &block[0], 4); \
printf("\n"); \
}
//======== FCMPE_D_Z ========//
#define GEN_test_FCMPE_D_Z \
__attribute__((noinline)) static void test_FCMPE_D_Z ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMPE_D_Z before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmpe d29, #0; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMPE_D_Z after", &block[0], 4); \
printf("\n"); \
}
//======== FCMPE_S_Z ========//
#define GEN_test_FCMPE_S_Z \
__attribute__((noinline)) static void test_FCMPE_S_Z ( void ) \
{ \
V128 block[4]; \
randBlock_Floats(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCMPE_S_Z before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcmpe s29, #0; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCMPE_S_Z after", &block[0], 4); \
printf("\n"); \
}
//======== FCSEL_D_D_D_EQ ========//
#define GEN_test_FCSEL_D_D_D_EQ \
__attribute__((noinline)) static void test_FCSEL_D_D_D_EQ ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCSEL_D_D_D_EQ before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcsel d29, d11, d9, eq; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCSEL_D_D_D_EQ after", &block[0], 4); \
printf("\n"); \
}
//======== FCSEL_D_D_D_NE ========//
#define GEN_test_FCSEL_D_D_D_NE \
__attribute__((noinline)) static void test_FCSEL_D_D_D_NE ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCSEL_D_D_D_NE before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcsel d29, d11, d9, ne; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCSEL_D_D_D_NE after", &block[0], 4); \
printf("\n"); \
}
//======== FCSEL_S_S_S_EQ ========//
#define GEN_test_FCSEL_S_S_S_EQ \
__attribute__((noinline)) static void test_FCSEL_S_S_S_EQ ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCSEL_S_S_S_EQ before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcsel s29, s11, s9, eq; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCSEL_S_S_S_EQ after", &block[0], 4); \
printf("\n"); \
}
//======== FCSEL_S_S_S_NE ========//
#define GEN_test_FCSEL_S_S_S_NE \
__attribute__((noinline)) static void test_FCSEL_S_S_S_NE ( void ) \
{ \
V128 block[4]; \
randBlock_Doubles(&block[0], 3); \
block[3].u64[0] = dup4x16(0x5); block[3].u64[1] = dup4x16(0xA); \
showBlock("FCSEL_S_S_S_NE before", &block[0], 4); \
__asm__ __volatile__( \
"ldr x9, [%0, 48]; msr nzcv, x9; " \
"ldr q29, [%0, #0]; ldr q11, [%0, #16]; ldr q9, [%0, #32]; " \
"fcsel s29, s11, s9, ne; " \
"mrs x9, nzcv; str x9, [%0, 48]; " \
"str q29, [%0, #0]; str q11, [%0, #16]; str q9, [%0, #32]; " \
::"r"(&block[0]) : "x9","cc","memory","v9","v11","v29" \
); \
showBlock("FCSEL_S_S_S_NE after", &block[0], 4); \
printf("\n"); \
}
/* ---------------------------------------------------------------- */
/* -- Tests, in the same order that they appear in main() -- */
/* ---------------------------------------------------------------- */
// ======================== FP ========================
GEN_TWOVEC_TEST(fabs_d_d, "fabs d22, d23", 22, 23)
GEN_TWOVEC_TEST(fabs_s_s, "fabs s22, s23", 22, 23)
GEN_TWOVEC_TEST(fabs_2d_2d, "fabs v22.2d, v23.2d", 22, 23)
GEN_TWOVEC_TEST(fabs_4s_4s, "fabs v22.4s, v23.4s", 22, 23)
GEN_TWOVEC_TEST(fabs_2s_2s, "fabs v22.2s, v23.2s", 22, 23)
GEN_TWOVEC_TEST(fneg_d_d, "fneg d22, d23", 22, 23)
GEN_TWOVEC_TEST(fneg_s_s, "fneg s22, s23", 22, 23)
GEN_TWOVEC_TEST(fneg_2d_2d, "fneg v22.2d, v23.2d", 22, 23)
GEN_TWOVEC_TEST(fneg_4s_4s, "fneg v22.4s, v23.4s", 22, 23)
GEN_TWOVEC_TEST(fneg_2s_2s, "fneg v22.2s, v23.2s", 22, 23)
GEN_TWOVEC_TEST(fsqrt_d_d, "fsqrt d22, d23", 22, 23)
GEN_TWOVEC_TEST(fsqrt_s_s, "fsqrt s22, s23", 22, 23)
GEN_TWOVEC_TEST(fsqrt_2d_2d, "fsqrt v22.2d, v23.2d", 22, 23)
GEN_TWOVEC_TEST(fsqrt_4s_4s, "fsqrt v22.4s, v23.4s", 22, 23)
GEN_TWOVEC_TEST(fsqrt_2s_2s, "fsqrt v22.2s, v23.2s", 22, 23)
GEN_THREEVEC_TEST(fadd_d_d_d, "fadd d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(fadd_s_s_s, "fadd s2, s11, s29", 2, 11, 29)
GEN_THREEVEC_TEST(fsub_d_d_d, "fsub d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(fsub_s_s_s, "fsub s2, s11, s29", 2, 11, 29)
GEN_BINARY_TEST(fadd, 2d, 2d, 2d)
GEN_BINARY_TEST(fadd, 4s, 4s, 4s)
GEN_BINARY_TEST(fadd, 2s, 2s, 2s)
GEN_BINARY_TEST(fsub, 2d, 2d, 2d)
GEN_BINARY_TEST(fsub, 4s, 4s, 4s)
GEN_BINARY_TEST(fsub, 2s, 2s, 2s)
GEN_THREEVEC_TEST(fabd_d_d_d, "fabd d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(fabd_s_s_s, "fabd s2, s11, s29", 2, 11, 29)
GEN_BINARY_TEST(fabd, 2d, 2d, 2d)
GEN_BINARY_TEST(fabd, 4s, 4s, 4s)
GEN_BINARY_TEST(fabd, 2s, 2s, 2s)
GEN_TWOVEC_TEST(faddp_d_2d, "faddp d2, v23.2d", 2, 23)
GEN_TWOVEC_TEST(faddp_s_2s, "faddp s2, v23.2s", 2, 23)
GEN_THREEVEC_TEST(faddp_2d_2d_2d, "faddp v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(faddp_4s_4s_4s, "faddp v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(faddp_2s_2s_2s, "faddp v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_test_FCCMP_D_D_0xF_EQ
GEN_test_FCCMP_D_D_0xF_NE
GEN_test_FCCMP_D_D_0x0_EQ
GEN_test_FCCMP_D_D_0x0_NE
GEN_test_FCCMP_S_S_0xF_EQ
GEN_test_FCCMP_S_S_0xF_NE
GEN_test_FCCMP_S_S_0x0_EQ
GEN_test_FCCMP_S_S_0x0_NE
GEN_test_FCCMPE_D_D_0xF_EQ
GEN_test_FCCMPE_D_D_0xF_NE
GEN_test_FCCMPE_D_D_0x0_EQ
GEN_test_FCCMPE_D_D_0x0_NE
GEN_test_FCCMPE_S_S_0xF_EQ
GEN_test_FCCMPE_S_S_0xF_NE
GEN_test_FCCMPE_S_S_0x0_EQ
GEN_test_FCCMPE_S_S_0x0_NE
GEN_test_FCMEQ_D_D_D
GEN_test_FCMEQ_S_S_S
GEN_test_FCMGE_D_D_D
GEN_test_FCMGE_S_S_S
GEN_test_FCMGT_D_D_D
GEN_test_FCMGT_S_S_S
GEN_test_FACGT_D_D_D
GEN_test_FACGT_S_S_S
GEN_test_FACGE_D_D_D
GEN_test_FACGE_S_S_S
GEN_THREEVEC_TEST(fcmeq_2d_2d_2d, "fcmeq v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(fcmeq_4s_4s_4s, "fcmeq v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(fcmeq_2s_2s_2s, "fcmeq v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_THREEVEC_TEST(fcmge_2d_2d_2d, "fcmge v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(fcmge_4s_4s_4s, "fcmge v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(fcmge_2s_2s_2s, "fcmge v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_THREEVEC_TEST(fcmgt_2d_2d_2d, "fcmgt v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(fcmgt_4s_4s_4s, "fcmgt v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(fcmgt_2s_2s_2s, "fcmgt v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_THREEVEC_TEST(facge_2d_2d_2d, "facge v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(facge_4s_4s_4s, "facge v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(facge_2s_2s_2s, "facge v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_THREEVEC_TEST(facgt_2d_2d_2d, "facgt v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(facgt_4s_4s_4s, "facgt v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(facgt_2s_2s_2s, "facgt v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_test_FCMEQ_D_D_Z
GEN_test_FCMEQ_S_S_Z
GEN_test_FCMGE_D_D_Z
GEN_test_FCMGE_S_S_Z
GEN_test_FCMGT_D_D_Z
GEN_test_FCMGT_S_S_Z
GEN_test_FCMLE_D_D_Z
GEN_test_FCMLE_S_S_Z
GEN_test_FCMLT_D_D_Z
GEN_test_FCMLT_S_S_Z
GEN_TWOVEC_TEST(fcmeq_z_2d_2d, "fcmeq v2.2d, v23.2d, #0", 2, 23)
GEN_TWOVEC_TEST(fcmeq_z_4s_4s, "fcmeq v2.4s, v23.4s, #0", 2, 23)
GEN_TWOVEC_TEST(fcmeq_z_2s_2s, "fcmeq v2.2s, v23.2s, #0", 2, 23)
GEN_TWOVEC_TEST(fcmge_z_2d_2d, "fcmge v2.2d, v23.2d, #0", 2, 23)
GEN_TWOVEC_TEST(fcmge_z_4s_4s, "fcmge v2.4s, v23.4s, #0", 2, 23)
GEN_TWOVEC_TEST(fcmge_z_2s_2s, "fcmge v2.2s, v23.2s, #0", 2, 23)
GEN_TWOVEC_TEST(fcmgt_z_2d_2d, "fcmgt v2.2d, v23.2d, #0", 2, 23)
GEN_TWOVEC_TEST(fcmgt_z_4s_4s, "fcmgt v2.4s, v23.4s, #0", 2, 23)
GEN_TWOVEC_TEST(fcmgt_z_2s_2s, "fcmgt v2.2s, v23.2s, #0", 2, 23)
GEN_TWOVEC_TEST(fcmle_z_2d_2d, "fcmle v2.2d, v23.2d, #0", 2, 23)
GEN_TWOVEC_TEST(fcmle_z_4s_4s, "fcmle v2.4s, v23.4s, #0", 2, 23)
GEN_TWOVEC_TEST(fcmle_z_2s_2s, "fcmle v2.2s, v23.2s, #0", 2, 23)
GEN_TWOVEC_TEST(fcmlt_z_2d_2d, "fcmlt v2.2d, v23.2d, #0", 2, 23)
GEN_TWOVEC_TEST(fcmlt_z_4s_4s, "fcmlt v2.4s, v23.4s, #0", 2, 23)
GEN_TWOVEC_TEST(fcmlt_z_2s_2s, "fcmlt v2.2s, v23.2s, #0", 2, 23)
GEN_test_FCMP_D_Z
GEN_test_FCMP_S_Z
GEN_test_FCMPE_D_Z
GEN_test_FCMPE_S_Z
GEN_test_FCMP_D_D
GEN_test_FCMP_S_S
GEN_test_FCMPE_D_D
GEN_test_FCMPE_S_S
GEN_test_FCSEL_D_D_D_EQ
GEN_test_FCSEL_D_D_D_NE
GEN_test_FCSEL_S_S_S_EQ
GEN_test_FCSEL_S_S_S_NE
GEN_THREEVEC_TEST(fdiv_d_d_d, "fdiv d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(fdiv_s_s_s, "fdiv s2, s11, s29", 2, 11, 29)
GEN_BINARY_TEST(fdiv, 2d, 2d, 2d)
GEN_BINARY_TEST(fdiv, 4s, 4s, 4s)
GEN_BINARY_TEST(fdiv, 2s, 2s, 2s)
GEN_FOURVEC_TEST(fmadd_d_d_d_d, "fmadd d2, d11, d29, d3", 2, 11, 29, 3)
GEN_FOURVEC_TEST(fmadd_s_s_s_s, "fmadd s2, s11, s29, s3", 2, 11, 29, 3)
GEN_FOURVEC_TEST(fnmadd_d_d_d_d, "fnmadd d2, d11, d29, d3", 2, 11, 29, 3)
GEN_FOURVEC_TEST(fnmadd_s_s_s_s, "fnmadd s2, s11, s29, s3", 2, 11, 29, 3)
GEN_FOURVEC_TEST(fmsub_d_d_d_d, "fmsub d2, d11, d29, d3", 2, 11, 29, 3)
GEN_FOURVEC_TEST(fmsub_s_s_s_s, "fmsub s2, s11, s29, s3", 2, 11, 29, 3)
GEN_FOURVEC_TEST(fnmsub_d_d_d_d, "fnmsub d2, d11, d29, d3", 2, 11, 29, 3)
GEN_FOURVEC_TEST(fnmsub_s_s_s_s, "fnmsub s2, s11, s29, s3", 2, 11, 29, 3)
GEN_THREEVEC_TEST(fnmul_d_d_d, "fnmul d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(fnmul_s_s_s, "fnmul s2, s11, s29", 2, 11, 29)
GEN_THREEVEC_TEST(fmax_d_d_d, "fmax d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(fmax_s_s_s, "fmax s2, s11, s29", 2, 11, 29)
GEN_THREEVEC_TEST(fmin_d_d_d, "fmin d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(fmin_s_s_s, "fmin s2, s11, s29", 2, 11, 29)
GEN_THREEVEC_TEST(fmaxnm_d_d_d, "fmaxnm d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(fmaxnm_s_s_s, "fmaxnm s2, s11, s29", 2, 11, 29)
GEN_THREEVEC_TEST(fminnm_d_d_d, "fminnm d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(fminnm_s_s_s, "fminnm s2, s11, s29", 2, 11, 29)
GEN_THREEVEC_TEST(fmax_2d_2d_2d, "fmax v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(fmax_4s_4s_4s, "fmax v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(fmax_2s_2s_2s, "fmax v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_THREEVEC_TEST(fmin_2d_2d_2d, "fmin v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(fmin_4s_4s_4s, "fmin v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(fmin_2s_2s_2s, "fmin v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_THREEVEC_TEST(fmaxnm_2d_2d_2d, "fmaxnm v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(fmaxnm_4s_4s_4s, "fmaxnm v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(fmaxnm_2s_2s_2s, "fmaxnm v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_THREEVEC_TEST(fminnm_2d_2d_2d, "fminnm v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(fminnm_4s_4s_4s, "fminnm v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(fminnm_2s_2s_2s, "fminnm v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_TWOVEC_TEST(fmaxnmp_d_2d, "fmaxnmp d2, v23.2d", 2, 23)
GEN_TWOVEC_TEST(fmaxnmp_s_2s, "fmaxnmp s2, v23.2s", 2, 23)
GEN_TWOVEC_TEST(fminnmp_d_2d, "fminnmp d2, v23.2d", 2, 23)
GEN_TWOVEC_TEST(fminnmp_s_2s, "fminnmp s2, v23.2s", 2, 23)
GEN_THREEVEC_TEST(fmaxnmp_2d_2d_2d, "fmaxnmp v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(fmaxnmp_4s_4s_4s, "fmaxnmp v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(fmaxnmp_2s_2s_2s, "fmaxnmp v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_THREEVEC_TEST(fminnmp_2d_2d_2d, "fminnmp v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(fminnmp_4s_4s_4s, "fminnmp v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(fminnmp_2s_2s_2s, "fminnmp v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_TWOVEC_TEST(fmaxnmv_s_4s, "fmaxnmv s2, v23.4s", 2, 23)
GEN_TWOVEC_TEST(fminnmv_s_4s, "fminnmv s2, v23.4s", 2, 23)
GEN_TWOVEC_TEST(fmaxp_d_2d, "fmaxp d2, v23.2d", 2, 23)
GEN_TWOVEC_TEST(fmaxp_s_2s, "fmaxp s2, v23.2s", 2, 23)
GEN_TWOVEC_TEST(fminp_d_2d, "fminp d2, v23.2d", 2, 23)
GEN_TWOVEC_TEST(fminp_s_2s, "fminp s2, v23.2s", 2, 23)
GEN_THREEVEC_TEST(fmaxp_2d_2d_2d, "fmaxp v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(fmaxp_4s_4s_4s, "fmaxp v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(fmaxp_2s_2s_2s, "fmaxp v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_THREEVEC_TEST(fminp_2d_2d_2d, "fminp v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(fminp_4s_4s_4s, "fminp v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(fminp_2s_2s_2s, "fminp v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_TWOVEC_TEST(fmaxv_s_4s, "fmaxv s2, v23.4s", 2, 23)
GEN_TWOVEC_TEST(fminv_s_4s, "fminv s2, v23.4s", 2, 23)
GEN_THREEVEC_TEST(fmla_2d_2d_2d, "fmla v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(fmla_4s_4s_4s, "fmla v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(fmla_2s_2s_2s, "fmla v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_THREEVEC_TEST(fmls_2d_2d_2d, "fmls v2.2d, v23.2d, v11.2d", 2, 23, 11)
GEN_THREEVEC_TEST(fmls_4s_4s_4s, "fmls v2.4s, v23.4s, v11.4s", 2, 23, 11)
GEN_THREEVEC_TEST(fmls_2s_2s_2s, "fmls v2.2s, v23.2s, v11.2s", 2, 23, 11)
GEN_THREEVEC_TEST(fmla_d_d_d0, "fmla d2, d11, v29.d[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmla_d_d_d1, "fmla d2, d11, v29.d[1]", 2, 11, 29)
GEN_THREEVEC_TEST(fmla_s_s_s0, "fmla s2, s11, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmla_s_s_s3, "fmla s2, s11, v29.s[3]", 2, 11, 29)
GEN_THREEVEC_TEST(fmls_d_d_d0, "fmls d2, d11, v29.d[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmls_d_d_d1, "fmls d2, d11, v29.d[1]", 2, 11, 29)
GEN_THREEVEC_TEST(fmls_s_s_s0, "fmls s2, s11, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmls_s_s_s3, "fmls s2, s11, v29.s[3]", 2, 11, 29)
GEN_THREEVEC_TEST(fmla_2d_2d_d0, "fmla v2.2d, v11.2d, v29.d[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmla_2d_2d_d1, "fmla v2.2d, v11.2d, v29.d[1]", 2, 11, 29)
GEN_THREEVEC_TEST(fmla_4s_4s_s0, "fmla v2.4s, v11.4s, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmla_4s_4s_s3, "fmla v2.4s, v11.4s, v29.s[3]", 2, 11, 29)
GEN_THREEVEC_TEST(fmla_2s_2s_s0, "fmla v2.2s, v11.2s, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmla_2s_2s_s3, "fmla v2.2s, v11.2s, v29.s[3]", 2, 11, 29)
GEN_THREEVEC_TEST(fmls_2d_2d_d0, "fmls v2.2d, v11.2d, v29.d[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmls_2d_2d_d1, "fmls v2.2d, v11.2d, v29.d[1]", 2, 11, 29)
GEN_THREEVEC_TEST(fmls_4s_4s_s0, "fmls v2.4s, v11.4s, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmls_4s_4s_s3, "fmls v2.4s, v11.4s, v29.s[3]", 2, 11, 29)
GEN_THREEVEC_TEST(fmls_2s_2s_s0, "fmls v2.2s, v11.2s, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmls_2s_2s_s3, "fmls v2.2s, v11.2s, v29.s[3]", 2, 11, 29)
GEN_TWOVEC_TEST(fmov_2d_imm_01, "fmov v22.2d, #0.125", 22, 23)
GEN_TWOVEC_TEST(fmov_2d_imm_02, "fmov v22.2d, #-4.0", 22, 23)
GEN_TWOVEC_TEST(fmov_2d_imm_03, "fmov v22.2d, #1.0", 22, 23)
GEN_TWOVEC_TEST(fmov_4s_imm_01, "fmov v22.4s, #0.125", 22, 23)
GEN_TWOVEC_TEST(fmov_4s_imm_02, "fmov v22.4s, #-4.0", 22, 23)
GEN_TWOVEC_TEST(fmov_4s_imm_03, "fmov v22.4s, #1.0", 22, 23)
GEN_TWOVEC_TEST(fmov_2s_imm_01, "fmov v22.2s, #0.125", 22, 23)
GEN_TWOVEC_TEST(fmov_2s_imm_02, "fmov v22.2s, #-4.0", 22, 23)
GEN_TWOVEC_TEST(fmov_2s_imm_03, "fmov v22.2s, #1.0", 22, 23)
GEN_TWOVEC_TEST(fmov_d_d, "fmov d22, d23", 22, 23)
GEN_TWOVEC_TEST(fmov_s_s, "fmov s22, s23", 22, 23)
GEN_ONEINT_ONEVEC_TEST(fmov_s_w, "fmov s7, w15", 15, 7)
GEN_ONEINT_ONEVEC_TEST(fmov_d_x, "fmov d7, x15", 15, 7)
GEN_ONEINT_ONEVEC_TEST(fmov_d1_x, "fmov v7.d[1], x15", 15, 7)
GEN_ONEINT_ONEVEC_TEST(fmov_w_s, "fmov w15, s7", 15, 7)
GEN_ONEINT_ONEVEC_TEST(fmov_x_d, "fmov x15, d7", 15, 7)
GEN_ONEINT_ONEVEC_TEST(fmov_x_d1, "fmov x15, v7.d[1]", 15, 7)
/* overkill -- don't need two vecs, only one */
GEN_TWOVEC_TEST(fmov_d_imm_01, "fmov d22, #0.125", 22, 23)
GEN_TWOVEC_TEST(fmov_d_imm_02, "fmov d22, #-4.0", 22, 23)
GEN_TWOVEC_TEST(fmov_d_imm_03, "fmov d22, #1.0", 22, 23)
GEN_TWOVEC_TEST(fmov_s_imm_01, "fmov s22, #0.125", 22, 23)
GEN_TWOVEC_TEST(fmov_s_imm_02, "fmov s22, #-4.0", 22, 23)
GEN_TWOVEC_TEST(fmov_s_imm_03, "fmov s22, #-1.0", 22, 23)
GEN_THREEVEC_TEST(fmul_d_d_d0, "fmul d2, d11, v29.d[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmul_d_d_d1, "fmul d2, d11, v29.d[1]", 2, 11, 29)
GEN_THREEVEC_TEST(fmul_s_s_s0, "fmul s2, s11, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmul_s_s_s3, "fmul s2, s11, v29.s[3]", 2, 11, 29)
GEN_THREEVEC_TEST(fmul_2d_2d_d0, "fmul v2.2d, v11.2d, v29.d[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmul_2d_2d_d1, "fmul v2.2d, v11.2d, v29.d[1]", 2, 11, 29)
GEN_THREEVEC_TEST(fmul_4s_4s_s0, "fmul v2.4s, v11.4s, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmul_4s_4s_s3, "fmul v2.4s, v11.4s, v29.s[3]", 2, 11, 29)
GEN_THREEVEC_TEST(fmul_2s_2s_s0, "fmul v2.2s, v11.2s, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmul_2s_2s_s3, "fmul v2.2s, v11.2s, v29.s[3]", 2, 11, 29)
GEN_THREEVEC_TEST(fmul_d_d_d, "fmul d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(fmul_s_s_s, "fmul s2, s11, s29", 2, 11, 29)
GEN_THREEVEC_TEST(fmul_2d_2d_2d, "fmul v2.2d, v11.2d, v29.2d", 2, 11, 29)
GEN_THREEVEC_TEST(fmul_4s_4s_4s, "fmul v2.4s, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(fmul_2s_2s_2s, "fmul v2.2s, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_d_d_d0, "fmulx d2, d11, v29.d[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_d_d_d1, "fmulx d2, d11, v29.d[1]", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_s_s_s0, "fmulx s2, s11, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_s_s_s3, "fmulx s2, s11, v29.s[3]", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_2d_2d_d0, "fmulx v2.2d, v11.2d, v29.d[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_2d_2d_d1, "fmulx v2.2d, v11.2d, v29.d[1]", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_4s_4s_s0, "fmulx v2.4s, v11.4s, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_4s_4s_s3, "fmulx v2.4s, v11.4s, v29.s[3]", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_2s_2s_s0, "fmulx v2.2s, v11.2s, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_2s_2s_s3, "fmulx v2.2s, v11.2s, v29.s[3]", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_d_d_d, "fmulx d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_s_s_s, "fmulx s2, s11, s29", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_2d_2d_2d, "fmulx v2.2d, v11.2d, v29.2d", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_4s_4s_4s, "fmulx v2.4s, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(fmulx_2s_2s_2s, "fmulx v2.2s, v11.2s, v29.2s", 2, 11, 29)
GEN_TWOVEC_TEST(frecpe_d_d, "frecpe d22, d23", 22, 23)
GEN_TWOVEC_TEST(frecpe_s_s, "frecpe s22, s23", 22, 23)
GEN_TWOVEC_TEST(frecpe_2d_2d, "frecpe v22.2d, v23.2d", 22, 23)
GEN_TWOVEC_TEST(frecpe_4s_4s, "frecpe v22.4s, v23.4s", 22, 23)
GEN_TWOVEC_TEST(frecpe_2s_2s, "frecpe v22.2s, v23.2s", 22, 23)
GEN_THREEVEC_TEST(frecps_d_d_d, "frecps d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(frecps_s_s_s, "frecps s2, s11, s29", 2, 11, 29)
GEN_THREEVEC_TEST(frecps_2d_2d_2d, "frecps v2.2d, v11.2d, v29.2d", 2, 11, 29)
GEN_THREEVEC_TEST(frecps_4s_4s_4s, "frecps v2.4s, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(frecps_2s_2s_2s, "frecps v2.2s, v11.2s, v29.2s", 2, 11, 29)
GEN_TWOVEC_TEST(frecpx_d_d, "frecpx d22, d23", 22, 23)
GEN_TWOVEC_TEST(frecpx_s_s, "frecpx s22, s23", 22, 23)
GEN_TWOVEC_TEST(frinta_d_d, "frinta d22, d23", 22, 23)
GEN_TWOVEC_TEST(frinta_s_s, "frinta s22, s23", 22, 23)
GEN_TWOVEC_TEST(frinti_d_d, "frinti d22, d23", 22, 23)
GEN_TWOVEC_TEST(frinti_s_s, "frinti s22, s23", 22, 23)
GEN_TWOVEC_TEST(frintm_d_d, "frintm d22, d23", 22, 23)
GEN_TWOVEC_TEST(frintm_s_s, "frintm s22, s23", 22, 23)
GEN_TWOVEC_TEST(frintn_d_d, "frintn d22, d23", 22, 23)
GEN_TWOVEC_TEST(frintn_s_s, "frintn s22, s23", 22, 23)
GEN_TWOVEC_TEST(frintp_d_d, "frintp d22, d23", 22, 23)
GEN_TWOVEC_TEST(frintp_s_s, "frintp s22, s23", 22, 23)
GEN_TWOVEC_TEST(frintx_d_d, "frintx d22, d23", 22, 23)
GEN_TWOVEC_TEST(frintx_s_s, "frintx s22, s23", 22, 23)
GEN_TWOVEC_TEST(frintz_d_d, "frintz d22, d23", 22, 23)
GEN_TWOVEC_TEST(frintz_s_s, "frintz s22, s23", 22, 23)
GEN_TWOVEC_TEST(frinta_2d_2d, "frinta v2.2d, v11.2d", 2, 11)
GEN_TWOVEC_TEST(frinta_4s_4s, "frinta v2.4s, v11.4s", 2, 11)
GEN_TWOVEC_TEST(frinta_2s_2s, "frinta v2.2s, v11.2s", 2, 11)
GEN_TWOVEC_TEST(frinti_2d_2d, "frinti v2.2d, v11.2d", 2, 11)
GEN_TWOVEC_TEST(frinti_4s_4s, "frinti v2.4s, v11.4s", 2, 11)
GEN_TWOVEC_TEST(frinti_2s_2s, "frinti v2.2s, v11.2s", 2, 11)
GEN_TWOVEC_TEST(frintm_2d_2d, "frintm v2.2d, v11.2d", 2, 11)
GEN_TWOVEC_TEST(frintm_4s_4s, "frintm v2.4s, v11.4s", 2, 11)
GEN_TWOVEC_TEST(frintm_2s_2s, "frintm v2.2s, v11.2s", 2, 11)
GEN_TWOVEC_TEST(frintn_2d_2d, "frintn v2.2d, v11.2d", 2, 11)
GEN_TWOVEC_TEST(frintn_4s_4s, "frintn v2.4s, v11.4s", 2, 11)
GEN_TWOVEC_TEST(frintn_2s_2s, "frintn v2.2s, v11.2s", 2, 11)
GEN_TWOVEC_TEST(frintp_2d_2d, "frintp v2.2d, v11.2d", 2, 11)
GEN_TWOVEC_TEST(frintp_4s_4s, "frintp v2.4s, v11.4s", 2, 11)
GEN_TWOVEC_TEST(frintp_2s_2s, "frintp v2.2s, v11.2s", 2, 11)
GEN_TWOVEC_TEST(frintx_2d_2d, "frintx v2.2d, v11.2d", 2, 11)
GEN_TWOVEC_TEST(frintx_4s_4s, "frintx v2.4s, v11.4s", 2, 11)
GEN_TWOVEC_TEST(frintx_2s_2s, "frintx v2.2s, v11.2s", 2, 11)
GEN_TWOVEC_TEST(frintz_2d_2d, "frintz v2.2d, v11.2d", 2, 11)
GEN_TWOVEC_TEST(frintz_4s_4s, "frintz v2.4s, v11.4s", 2, 11)
GEN_TWOVEC_TEST(frintz_2s_2s, "frintz v2.2s, v11.2s", 2, 11)
GEN_TWOVEC_TEST(frsqrte_d_d, "frsqrte d22, d23", 22, 23)
GEN_TWOVEC_TEST(frsqrte_s_s, "frsqrte s22, s23", 22, 23)
GEN_TWOVEC_TEST(frsqrte_2d_2d, "frsqrte v22.2d, v23.2d", 22, 23)
GEN_TWOVEC_TEST(frsqrte_4s_4s, "frsqrte v22.4s, v23.4s", 22, 23)
GEN_TWOVEC_TEST(frsqrte_2s_2s, "frsqrte v22.2s, v23.2s", 22, 23)
GEN_THREEVEC_TEST(frsqrts_d_d_d, "frsqrts d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(frsqrts_s_s_s, "frsqrts s2, s11, s29", 2, 11, 29)
GEN_THREEVEC_TEST(frsqrts_2d_2d_2d, "frsqrts v2.2d, v11.2d, v29.2d", 2, 11, 29)
GEN_THREEVEC_TEST(frsqrts_4s_4s_4s, "frsqrts v2.4s, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(frsqrts_2s_2s_2s, "frsqrts v2.2s, v11.2s, v29.2s", 2, 11, 29)
// ======================== CONV ========================
GEN_TWOVEC_TEST(fcvt_s_h, "fcvt s7, h16", 7, 16)
GEN_TWOVEC_TEST(fcvt_d_h, "fcvt d7, h16", 7, 16)
GEN_TWOVEC_TEST(fcvt_h_s, "fcvt h7, s16", 7, 16)
GEN_TWOVEC_TEST(fcvt_d_s, "fcvt d7, s16", 7, 16)
GEN_TWOVEC_TEST(fcvt_h_d, "fcvt h7, d16", 7, 16)
GEN_TWOVEC_TEST(fcvt_s_d, "fcvt s7, d16", 7, 16)
GEN_TWOVEC_TEST(fcvtl_4s_4h, "fcvtl v11.4s, v29.4h", 11, 29)
GEN_TWOVEC_TEST(fcvtl_4s_8h, "fcvtl2 v11.4s, v29.8h", 11, 29)
GEN_TWOVEC_TEST(fcvtl_2d_2s, "fcvtl v11.2d, v29.2s", 11, 29)
GEN_TWOVEC_TEST(fcvtl_2d_4s, "fcvtl2 v11.2d, v29.4s", 11, 29)
GEN_TWOVEC_TEST(fcvtn_4h_4s, "fcvtn v22.4h, v23.4s", 22, 23)
GEN_TWOVEC_TEST(fcvtn_8h_4s, "fcvtn2 v22.8h, v23.4s", 22, 23)
GEN_TWOVEC_TEST(fcvtn_2s_2d, "fcvtn v22.2s, v23.2d", 22, 23)
GEN_TWOVEC_TEST(fcvtn_4s_2d, "fcvtn2 v22.4s, v23.2d", 22, 23)
GEN_TWOVEC_TEST(fcvtas_d_d, "fcvtas d10, d21", 10, 21)
GEN_TWOVEC_TEST(fcvtau_d_d, "fcvtau d21, d10", 21, 10)
GEN_TWOVEC_TEST(fcvtas_s_s, "fcvtas s10, s21", 10, 21)
GEN_TWOVEC_TEST(fcvtau_s_s, "fcvtau s21, s10", 21, 10)
GEN_TWOVEC_TEST(fcvtas_2d_2d, "fcvtas v10.2d, v21.2d", 10, 21)
GEN_TWOVEC_TEST(fcvtau_2d_2d, "fcvtau v10.2d, v21.2d", 10, 21)
GEN_TWOVEC_TEST(fcvtas_4s_4s, "fcvtas v10.4s, v21.4s", 10, 21)
GEN_TWOVEC_TEST(fcvtau_4s_4s, "fcvtau v10.4s, v21.4s", 10, 21)
GEN_TWOVEC_TEST(fcvtas_2s_2s, "fcvtas v10.2s, v21.2s", 10, 21)
GEN_TWOVEC_TEST(fcvtau_2s_2s, "fcvtau v10.2s, v21.2s", 10, 21)
GEN_ONEINT_ONEVEC_TEST(fcvtas_w_s, "fcvtas w21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtau_w_s, "fcvtau w21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtas_x_s, "fcvtas x21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtau_x_s, "fcvtau x21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtas_w_d, "fcvtas w21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtau_w_d, "fcvtau w21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtas_x_d, "fcvtas x21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtau_x_d, "fcvtau x21, d10", 21, 10)
GEN_TWOVEC_TEST(fcvtms_d_d, "fcvtms d10, d21", 10, 21)
GEN_TWOVEC_TEST(fcvtmu_d_d, "fcvtmu d21, d10", 21, 10)
GEN_TWOVEC_TEST(fcvtms_s_s, "fcvtms s10, s21", 10, 21)
GEN_TWOVEC_TEST(fcvtmu_s_s, "fcvtmu s21, s10", 21, 10)
GEN_TWOVEC_TEST(fcvtms_2d_2d, "fcvtms v10.2d, v21.2d", 10, 21)
GEN_TWOVEC_TEST(fcvtmu_2d_2d, "fcvtmu v10.2d, v21.2d", 10, 21)
GEN_TWOVEC_TEST(fcvtms_4s_4s, "fcvtms v10.4s, v21.4s", 10, 21)
GEN_TWOVEC_TEST(fcvtmu_4s_4s, "fcvtmu v10.4s, v21.4s", 10, 21)
GEN_TWOVEC_TEST(fcvtms_2s_2s, "fcvtms v10.2s, v21.2s", 10, 21)
GEN_TWOVEC_TEST(fcvtmu_2s_2s, "fcvtmu v10.2s, v21.2s", 10, 21)
GEN_ONEINT_ONEVEC_TEST(fcvtms_w_s, "fcvtms w21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtmu_w_s, "fcvtmu w21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtms_x_s, "fcvtms x21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtmu_x_s, "fcvtmu x21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtms_w_d, "fcvtms w21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtmu_w_d, "fcvtmu w21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtms_x_d, "fcvtms x21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtmu_x_d, "fcvtmu x21, d10", 21, 10)
GEN_TWOVEC_TEST(fcvtns_d_d, "fcvtns d10, d21", 10, 21)
GEN_TWOVEC_TEST(fcvtnu_d_d, "fcvtnu d21, d10", 21, 10)
GEN_TWOVEC_TEST(fcvtns_s_s, "fcvtns s10, s21", 10, 21)
GEN_TWOVEC_TEST(fcvtnu_s_s, "fcvtnu s21, s10", 21, 10)
GEN_TWOVEC_TEST(fcvtns_2d_2d, "fcvtns v10.2d, v21.2d", 10, 21)
GEN_TWOVEC_TEST(fcvtnu_2d_2d, "fcvtnu v10.2d, v21.2d", 10, 21)
GEN_TWOVEC_TEST(fcvtns_4s_4s, "fcvtns v10.4s, v21.4s", 10, 21)
GEN_TWOVEC_TEST(fcvtnu_4s_4s, "fcvtnu v10.4s, v21.4s", 10, 21)
GEN_TWOVEC_TEST(fcvtns_2s_2s, "fcvtns v10.2s, v21.2s", 10, 21)
GEN_TWOVEC_TEST(fcvtnu_2s_2s, "fcvtnu v10.2s, v21.2s", 10, 21)
GEN_ONEINT_ONEVEC_TEST(fcvtns_w_s, "fcvtns w21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtnu_w_s, "fcvtnu w21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtns_x_s, "fcvtns x21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtnu_x_s, "fcvtnu x21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtns_w_d, "fcvtns w21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtnu_w_d, "fcvtnu w21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtns_x_d, "fcvtns x21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtnu_x_d, "fcvtnu x21, d10", 21, 10)
GEN_TWOVEC_TEST(fcvtps_d_d, "fcvtps d10, d21", 10, 21)
GEN_TWOVEC_TEST(fcvtpu_d_d, "fcvtpu d21, d10", 21, 10)
GEN_TWOVEC_TEST(fcvtps_s_s, "fcvtps s10, s21", 10, 21)
GEN_TWOVEC_TEST(fcvtpu_s_s, "fcvtpu s21, s10", 21, 10)
GEN_TWOVEC_TEST(fcvtps_2d_2d, "fcvtps v10.2d, v21.2d", 10, 21)
GEN_TWOVEC_TEST(fcvtpu_2d_2d, "fcvtpu v10.2d, v21.2d", 10, 21)
GEN_TWOVEC_TEST(fcvtps_4s_4s, "fcvtps v10.4s, v21.4s", 10, 21)
GEN_TWOVEC_TEST(fcvtpu_4s_4s, "fcvtpu v10.4s, v21.4s", 10, 21)
GEN_TWOVEC_TEST(fcvtps_2s_2s, "fcvtps v10.2s, v21.2s", 10, 21)
GEN_TWOVEC_TEST(fcvtpu_2s_2s, "fcvtpu v10.2s, v21.2s", 10, 21)
GEN_ONEINT_ONEVEC_TEST(fcvtps_w_s, "fcvtps w21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtpu_w_s, "fcvtpu w21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtps_x_s, "fcvtps x21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtpu_x_s, "fcvtpu x21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtps_w_d, "fcvtps w21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtpu_w_d, "fcvtpu w21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtps_x_d, "fcvtps x21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtpu_x_d, "fcvtpu x21, d10", 21, 10)
GEN_TWOVEC_TEST(fcvtzs_d_d, "fcvtzs d10, d21", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_d_d, "fcvtzu d21, d10", 21, 10)
GEN_TWOVEC_TEST(fcvtzs_s_s, "fcvtzs s10, s21", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_s_s, "fcvtzu s21, s10", 21, 10)
GEN_TWOVEC_TEST(fcvtzs_2d_2d, "fcvtzs v10.2d, v21.2d", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_2d_2d, "fcvtzu v10.2d, v21.2d", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_4s_4s, "fcvtzs v10.4s, v21.4s", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_4s_4s, "fcvtzu v10.4s, v21.4s", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_2s_2s, "fcvtzs v10.2s, v21.2s", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_2s_2s, "fcvtzu v10.2s, v21.2s", 10, 21)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_w_s, "fcvtzs w21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_w_s, "fcvtzu w21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_x_s, "fcvtzs x21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_x_s, "fcvtzu x21, s10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_w_d, "fcvtzs w21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_w_d, "fcvtzu w21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_x_d, "fcvtzs x21, d10", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_x_d, "fcvtzu x21, d10", 21, 10)
GEN_TWOVEC_TEST(fcvtzs_d_d_fbits1, "fcvtzs d10, d21, #1", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_d_d_fbits32, "fcvtzs d10, d21, #32", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_d_d_fbits64, "fcvtzs d10, d21, #64", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_d_d_fbits1, "fcvtzu d10, d21, #1", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_d_d_fbits32, "fcvtzu d10, d21, #32", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_d_d_fbits64, "fcvtzu d10, d21, #64", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_s_s_fbits1, "fcvtzs s10, s21, #1", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_s_s_fbits16, "fcvtzs s10, s21, #16", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_s_s_fbits32, "fcvtzs s10, s21, #32", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_s_s_fbits1, "fcvtzu s10, s21, #1", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_s_s_fbits16, "fcvtzu s10, s21, #16", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_s_s_fbits32, "fcvtzu s10, s21, #32", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_2d_2d_fbits1, "fcvtzs v10.2d, v21.2d, #1", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_2d_2d_fbits32, "fcvtzs v10.2d, v21.2d, #32", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_2d_2d_fbits64, "fcvtzs v10.2d, v21.2d, #64", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_2d_2d_fbits1, "fcvtzu v10.2d, v21.2d, #1", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_2d_2d_fbits32, "fcvtzu v10.2d, v21.2d, #32", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_2d_2d_fbits64, "fcvtzu v10.2d, v21.2d, #64", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_4s_4s_fbits1, "fcvtzs v10.4s, v21.4s, #1", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_4s_4s_fbits16, "fcvtzs v10.4s, v21.4s, #16", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_4s_4s_fbits32, "fcvtzs v10.4s, v21.4s, #32", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_4s_4s_fbits1, "fcvtzu v10.4s, v21.4s, #1", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_4s_4s_fbits16, "fcvtzu v10.4s, v21.4s, #16", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_4s_4s_fbits32, "fcvtzu v10.4s, v21.4s, #32", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_2s_2s_fbits1, "fcvtzs v10.2s, v21.2s, #1", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_2s_2s_fbits16, "fcvtzs v10.2s, v21.2s, #16", 10, 21)
GEN_TWOVEC_TEST(fcvtzs_2s_2s_fbits32, "fcvtzs v10.2s, v21.2s, #32", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_2s_2s_fbits1, "fcvtzu v10.2s, v21.2s, #1", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_2s_2s_fbits16, "fcvtzu v10.2s, v21.2s, #16", 10, 21)
GEN_TWOVEC_TEST(fcvtzu_2s_2s_fbits32, "fcvtzu v10.2s, v21.2s, #32", 10, 21)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_w_s_fbits1, "fcvtzs w21, s10, #1", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_w_s_fbits16, "fcvtzs w21, s10, #16", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_w_s_fbits32, "fcvtzs w21, s10, #32", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_w_s_fbits1, "fcvtzu w21, s10, #1", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_w_s_fbits16, "fcvtzu w21, s10, #16", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_w_s_fbits32, "fcvtzu w21, s10, #32", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_x_s_fbits1, "fcvtzs x21, s10, #1", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_x_s_fbits32, "fcvtzs x21, s10, #32", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_x_s_fbits64, "fcvtzs x21, s10, #64", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_x_s_fbits1, "fcvtzu x21, s10, #1", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_x_s_fbits32, "fcvtzu x21, s10, #32", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_x_s_fbits64, "fcvtzu x21, s10, #64", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_w_d_fbits1, "fcvtzs w21, d10, #1", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_w_d_fbits16, "fcvtzs w21, d10, #16", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_w_d_fbits32, "fcvtzs w21, d10, #32", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_w_d_fbits1, "fcvtzu w21, d10, #1", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_w_d_fbits16, "fcvtzu w21, d10, #16", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_w_d_fbits32, "fcvtzu w21, d10, #32", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_x_d_fbits1, "fcvtzs x21, d10, #1", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_x_d_fbits32, "fcvtzs x21, d10, #32", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzs_x_d_fbits64, "fcvtzs x21, d10, #64", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_x_d_fbits1, "fcvtzu x21, d10, #1", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_x_d_fbits32, "fcvtzu x21, d10, #32", 21, 10)
GEN_ONEINT_ONEVEC_TEST(fcvtzu_x_d_fbits64, "fcvtzu x21, d10, #64", 21, 10)
GEN_TWOVEC_TEST(fcvtxn_s_d, "fcvtxn s10, d21", 10, 21)
GEN_TWOVEC_TEST(fcvtxn_2s_2d, "fcvtxn v10.2s, v21.2d", 10, 21)
GEN_TWOVEC_TEST(fcvtxn_4s_2d, "fcvtxn2 v10.4s, v21.2d", 10, 21)
GEN_TWOVEC_TEST(scvtf_d_d_fbits1, "scvtf d10, d21 , #1", 10, 21)
GEN_TWOVEC_TEST(scvtf_d_d_fbits32, "scvtf d10, d21 , #32", 10, 21)
GEN_TWOVEC_TEST(scvtf_d_d_fbits64, "scvtf d10, d21 , #64", 10, 21)
GEN_TWOVEC_TEST(ucvtf_d_d_fbits1, "ucvtf d21, d10 , #1", 21, 10)
GEN_TWOVEC_TEST(ucvtf_d_d_fbits32, "ucvtf d21, d10 , #32", 21, 10)
GEN_TWOVEC_TEST(ucvtf_d_d_fbits64, "ucvtf d21, d10 , #64", 21, 10)
GEN_TWOVEC_TEST(scvtf_s_s_fbits1, "scvtf s10, s21 , #1", 10, 21)
GEN_TWOVEC_TEST(scvtf_s_s_fbits16, "scvtf s10, s21 , #16", 10, 21)
GEN_TWOVEC_TEST(scvtf_s_s_fbits32, "scvtf s10, s21 , #32", 10, 21)
GEN_TWOVEC_TEST(ucvtf_s_s_fbits1, "ucvtf s21, s10 , #1", 21, 10)
GEN_TWOVEC_TEST(ucvtf_s_s_fbits16, "ucvtf s21, s10 , #16", 21, 10)
GEN_TWOVEC_TEST(ucvtf_s_s_fbits32, "ucvtf s21, s10 , #32", 21, 10)
GEN_TWOVEC_TEST(scvtf_2d_2d_fbits1, "scvtf v10.2d, v21.2d, #1", 10, 21)
GEN_TWOVEC_TEST(scvtf_2d_2d_fbits32, "scvtf v10.2d, v21.2d, #32", 10, 21)
GEN_TWOVEC_TEST(scvtf_2d_2d_fbits64, "scvtf v10.2d, v21.2d, #64", 10, 21)
GEN_TWOVEC_TEST(ucvtf_2d_2d_fbits1, "ucvtf v10.2d, v21.2d, #1", 10, 21)
GEN_TWOVEC_TEST(ucvtf_2d_2d_fbits32, "ucvtf v10.2d, v21.2d, #32", 10, 21)
GEN_TWOVEC_TEST(ucvtf_2d_2d_fbits64, "ucvtf v10.2d, v21.2d, #64", 10, 21)
GEN_TWOVEC_TEST(scvtf_4s_4s_fbits1, "scvtf v10.4s, v21.4s, #1", 10, 21)
GEN_TWOVEC_TEST(scvtf_4s_4s_fbits16, "scvtf v10.4s, v21.4s, #16", 10, 21)
GEN_TWOVEC_TEST(scvtf_4s_4s_fbits32, "scvtf v10.4s, v21.4s, #32", 10, 21)
GEN_TWOVEC_TEST(ucvtf_4s_4s_fbits1, "ucvtf v10.4s, v21.4s, #1", 10, 21)
GEN_TWOVEC_TEST(ucvtf_4s_4s_fbits16, "ucvtf v10.4s, v21.4s, #16", 10, 21)
GEN_TWOVEC_TEST(ucvtf_4s_4s_fbits32, "ucvtf v10.4s, v21.4s, #32", 10, 21)
GEN_TWOVEC_TEST(scvtf_2s_2s_fbits1, "scvtf v10.2s, v21.2s, #1", 10, 21)
GEN_TWOVEC_TEST(scvtf_2s_2s_fbits16, "scvtf v10.2s, v21.2s, #16", 10, 21)
GEN_TWOVEC_TEST(scvtf_2s_2s_fbits32, "scvtf v10.2s, v21.2s, #32", 10, 21)
GEN_TWOVEC_TEST(ucvtf_2s_2s_fbits1, "ucvtf v10.2s, v21.2s, #1", 10, 21)
GEN_TWOVEC_TEST(ucvtf_2s_2s_fbits16, "ucvtf v10.2s, v21.2s, #16", 10, 21)
GEN_TWOVEC_TEST(ucvtf_2s_2s_fbits32, "ucvtf v10.2s, v21.2s, #32", 10, 21)
GEN_TWOVEC_TEST(scvtf_d_d, "scvtf d10, d21", 10, 21)
GEN_TWOVEC_TEST(ucvtf_d_d, "ucvtf d21, d10", 21, 10)
GEN_TWOVEC_TEST(scvtf_s_s, "scvtf s10, s21", 10, 21)
GEN_TWOVEC_TEST(ucvtf_s_s, "ucvtf s21, s10", 21, 10)
GEN_TWOVEC_TEST(scvtf_2d_2d, "scvtf v10.2d, v21.2d", 10, 21)
GEN_TWOVEC_TEST(ucvtf_2d_2d, "ucvtf v10.2d, v21.2d", 10, 21)
GEN_TWOVEC_TEST(scvtf_4s_4s, "scvtf v10.4s, v21.4s", 10, 21)
GEN_TWOVEC_TEST(ucvtf_4s_4s, "ucvtf v10.4s, v21.4s", 10, 21)
GEN_TWOVEC_TEST(scvtf_2s_2s, "scvtf v10.2s, v21.2s", 10, 21)
GEN_TWOVEC_TEST(ucvtf_2s_2s, "ucvtf v10.2s, v21.2s", 10, 21)
GEN_ONEINT_ONEVEC_TEST(scvtf_s_w_fbits1, "scvtf s7, w15, #1", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_s_w_fbits16, "scvtf s7, w15, #16", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_s_w_fbits32, "scvtf s7, w15, #32", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_d_w_fbits1, "scvtf d7, w15, #1", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_d_w_fbits16, "scvtf d7, w15, #16", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_d_w_fbits32, "scvtf d7, w15, #32", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_s_x_fbits1, "scvtf s7, x15, #1", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_s_x_fbits32, "scvtf s7, x15, #32", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_s_x_fbits64, "scvtf s7, x15, #64", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_d_x_fbits1, "scvtf d7, x15, #1", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_d_x_fbits32, "scvtf d7, x15, #32", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_d_x_fbits64, "scvtf d7, x15, #64", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_s_w_fbits1, "ucvtf s7, w15, #1", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_s_w_fbits16, "ucvtf s7, w15, #16", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_s_w_fbits32, "ucvtf s7, w15, #32", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_d_w_fbits1, "ucvtf d7, w15, #1", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_d_w_fbits16, "ucvtf d7, w15, #16", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_d_w_fbits32, "ucvtf d7, w15, #32", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_s_x_fbits1, "ucvtf s7, x15, #1", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_s_x_fbits32, "ucvtf s7, x15, #32", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_s_x_fbits64, "ucvtf s7, x15, #64", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_d_x_fbits1, "ucvtf d7, x15, #1", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_d_x_fbits32, "ucvtf d7, x15, #32", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_d_x_fbits64, "ucvtf d7, x15, #64", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_s_w, "scvtf s7, w15", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_d_w, "scvtf d7, w15", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_s_x, "scvtf s7, x15", 15, 7)
GEN_ONEINT_ONEVEC_TEST(scvtf_d_x, "scvtf d7, x15", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_s_w, "ucvtf s7, w15", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_d_w, "ucvtf d7, w15", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_s_x, "ucvtf s7, x15", 15, 7)
GEN_ONEINT_ONEVEC_TEST(ucvtf_d_x, "ucvtf d7, x15", 15, 7)
// ======================== INT ========================
GEN_TWOVEC_TEST(abs_d_d, "abs d22, d23", 22, 23)
GEN_TWOVEC_TEST(neg_d_d, "neg d22, d23", 22, 23)
GEN_UNARY_TEST(abs, 2d, 2d)
GEN_UNARY_TEST(abs, 4s, 4s)
GEN_UNARY_TEST(abs, 2s, 2s)
GEN_UNARY_TEST(abs, 8h, 8h)
GEN_UNARY_TEST(abs, 4h, 4h)
GEN_UNARY_TEST(abs, 16b, 16b)
GEN_UNARY_TEST(abs, 8b, 8b)
GEN_UNARY_TEST(neg, 2d, 2d)
GEN_UNARY_TEST(neg, 4s, 4s)
GEN_UNARY_TEST(neg, 2s, 2s)
GEN_UNARY_TEST(neg, 8h, 8h)
GEN_UNARY_TEST(neg, 4h, 4h)
GEN_UNARY_TEST(neg, 16b, 16b)
GEN_UNARY_TEST(neg, 8b, 8b)
GEN_THREEVEC_TEST(add_d_d_d, "add d21, d22, d23", 21, 22, 23)
GEN_THREEVEC_TEST(sub_d_d_d, "sub d21, d22, d23", 21, 22, 23)
GEN_BINARY_TEST(add, 2d, 2d, 2d)
GEN_BINARY_TEST(add, 4s, 4s, 4s)
GEN_BINARY_TEST(add, 2s, 2s, 2s)
GEN_BINARY_TEST(add, 8h, 8h, 8h)
GEN_BINARY_TEST(add, 4h, 4h, 4h)
GEN_BINARY_TEST(add, 16b, 16b, 16b)
GEN_BINARY_TEST(add, 8b, 8b, 8b)
GEN_BINARY_TEST(sub, 2d, 2d, 2d)
GEN_BINARY_TEST(sub, 4s, 4s, 4s)
GEN_BINARY_TEST(sub, 2s, 2s, 2s)
GEN_BINARY_TEST(sub, 8h, 8h, 8h)
GEN_BINARY_TEST(sub, 4h, 4h, 4h)
GEN_BINARY_TEST(sub, 16b, 16b, 16b)
GEN_BINARY_TEST(sub, 8b, 8b, 8b)
GEN_BINARY_TEST(addhn, 2s, 2d, 2d)
GEN_BINARY_TEST(addhn2, 4s, 2d, 2d)
GEN_BINARY_TEST(addhn, 4h, 4s, 4s)
GEN_BINARY_TEST(addhn2, 8h, 4s, 4s)
GEN_BINARY_TEST(addhn, 8b, 8h, 8h)
GEN_BINARY_TEST(addhn2, 16b, 8h, 8h)
GEN_BINARY_TEST(subhn, 2s, 2d, 2d)
GEN_BINARY_TEST(subhn2, 4s, 2d, 2d)
GEN_BINARY_TEST(subhn, 4h, 4s, 4s)
GEN_BINARY_TEST(subhn2, 8h, 4s, 4s)
GEN_BINARY_TEST(subhn, 8b, 8h, 8h)
GEN_BINARY_TEST(subhn2, 16b, 8h, 8h)
GEN_BINARY_TEST(raddhn, 2s, 2d, 2d)
GEN_BINARY_TEST(raddhn2, 4s, 2d, 2d)
GEN_BINARY_TEST(raddhn, 4h, 4s, 4s)
GEN_BINARY_TEST(raddhn2, 8h, 4s, 4s)
GEN_BINARY_TEST(raddhn, 8b, 8h, 8h)
GEN_BINARY_TEST(raddhn2, 16b, 8h, 8h)
GEN_BINARY_TEST(rsubhn, 2s, 2d, 2d)
GEN_BINARY_TEST(rsubhn2, 4s, 2d, 2d)
GEN_BINARY_TEST(rsubhn, 4h, 4s, 4s)
GEN_BINARY_TEST(rsubhn2, 8h, 4s, 4s)
GEN_BINARY_TEST(rsubhn, 8b, 8h, 8h)
GEN_BINARY_TEST(rsubhn2, 16b, 8h, 8h)
GEN_TWOVEC_TEST(addp_d_2d, "addp d22, v23.2d", 22, 23)
GEN_BINARY_TEST(addp, 2d, 2d, 2d)
GEN_BINARY_TEST(addp, 4s, 4s, 4s)
GEN_BINARY_TEST(addp, 2s, 2s, 2s)
GEN_BINARY_TEST(addp, 8h, 8h, 8h)
GEN_BINARY_TEST(addp, 4h, 4h, 4h)
GEN_BINARY_TEST(addp, 16b, 16b, 16b)
GEN_BINARY_TEST(addp, 8b, 8b, 8b)
GEN_TWOVEC_TEST(addv_s_4s, "addv s22, v23.4s", 22, 23)
GEN_TWOVEC_TEST(addv_h_8h, "addv h22, v23.8h", 22, 23)
GEN_TWOVEC_TEST(addv_h_4h, "addv h22, v23.4h", 22, 23)
GEN_TWOVEC_TEST(addv_b_16b, "addv b22, v23.16b", 22, 23)
GEN_TWOVEC_TEST(addv_b_8b, "addv b22, v23.8b", 22, 23)
GEN_BINARY_TEST(and, 16b, 16b, 16b)
GEN_BINARY_TEST(and, 8b, 8b, 8b)
GEN_BINARY_TEST(bic, 16b, 16b, 16b)
GEN_BINARY_TEST(bic, 8b, 8b, 8b)
GEN_BINARY_TEST(orr, 16b, 16b, 16b)
GEN_BINARY_TEST(orr, 8b, 8b, 8b)
GEN_BINARY_TEST(orn, 16b, 16b, 16b)
GEN_BINARY_TEST(orn, 8b, 8b, 8b)
/* overkill -- don't need two vecs, only one */
GEN_TWOVEC_TEST(orr_8h_0x5A_lsl0, "orr v22.8h, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(orr_8h_0xA5_lsl8, "orr v22.8h, #0xA5, LSL #8", 22, 23)
GEN_TWOVEC_TEST(orr_4h_0x5A_lsl0, "orr v22.4h, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(orr_4h_0xA5_lsl8, "orr v22.4h, #0xA5, LSL #8", 22, 23)
GEN_TWOVEC_TEST(orr_4s_0x5A_lsl0, "orr v22.4s, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(orr_4s_0x6B_lsl8, "orr v22.4s, #0x6B, LSL #8", 22, 23)
GEN_TWOVEC_TEST(orr_4s_0x49_lsl16, "orr v22.4s, #0x49, LSL #16", 22, 23)
GEN_TWOVEC_TEST(orr_4s_0x3D_lsl24, "orr v22.4s, #0x3D, LSL #24", 22, 23)
GEN_TWOVEC_TEST(orr_2s_0x5A_lsl0, "orr v22.2s, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(orr_2s_0x6B_lsl8, "orr v22.2s, #0x6B, LSL #8", 22, 23)
GEN_TWOVEC_TEST(orr_2s_0x49_lsl16, "orr v22.2s, #0x49, LSL #16", 22, 23)
GEN_TWOVEC_TEST(orr_2s_0x3D_lsl24, "orr v22.2s, #0x3D, LSL #24", 22, 23)
GEN_TWOVEC_TEST(bic_8h_0x5A_lsl0, "bic v22.8h, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(bic_8h_0xA5_lsl8, "bic v22.8h, #0xA5, LSL #8", 22, 23)
GEN_TWOVEC_TEST(bic_4h_0x5A_lsl0, "bic v22.4h, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(bic_4h_0xA5_lsl8, "bic v22.4h, #0xA5, LSL #8", 22, 23)
GEN_TWOVEC_TEST(bic_4s_0x5A_lsl0, "bic v22.4s, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(bic_4s_0x6B_lsl8, "bic v22.4s, #0x6B, LSL #8", 22, 23)
GEN_TWOVEC_TEST(bic_4s_0x49_lsl16, "bic v22.4s, #0x49, LSL #16", 22, 23)
GEN_TWOVEC_TEST(bic_4s_0x3D_lsl24, "bic v22.4s, #0x3D, LSL #24", 22, 23)
GEN_TWOVEC_TEST(bic_2s_0x5A_lsl0, "bic v22.2s, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(bic_2s_0x6B_lsl8, "bic v22.2s, #0x6B, LSL #8", 22, 23)
GEN_TWOVEC_TEST(bic_2s_0x49_lsl16, "bic v22.2s, #0x49, LSL #16", 22, 23)
GEN_TWOVEC_TEST(bic_2s_0x3D_lsl24, "bic v22.2s, #0x3D, LSL #24", 22, 23)
GEN_BINARY_TEST(bif, 16b, 16b, 16b)
GEN_BINARY_TEST(bif, 8b, 8b, 8b)
GEN_BINARY_TEST(bit, 16b, 16b, 16b)
GEN_BINARY_TEST(bit, 8b, 8b, 8b)
GEN_BINARY_TEST(bsl, 16b, 16b, 16b)
GEN_BINARY_TEST(bsl, 8b, 8b, 8b)
GEN_BINARY_TEST(eor, 16b, 16b, 16b)
GEN_BINARY_TEST(eor, 8b, 8b, 8b)
GEN_UNARY_TEST(cls, 4s, 4s)
GEN_UNARY_TEST(cls, 2s, 2s)
GEN_UNARY_TEST(cls, 8h, 8h)
GEN_UNARY_TEST(cls, 4h, 4h)
GEN_UNARY_TEST(cls, 16b, 16b)
GEN_UNARY_TEST(cls, 8b, 8b)
GEN_UNARY_TEST(clz, 4s, 4s)
GEN_UNARY_TEST(clz, 2s, 2s)
GEN_UNARY_TEST(clz, 8h, 8h)
GEN_UNARY_TEST(clz, 4h, 4h)
GEN_UNARY_TEST(clz, 16b, 16b)
GEN_UNARY_TEST(clz, 8b, 8b)
GEN_THREEVEC_TEST(cmeq_d_d_d, "cmeq d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(cmge_d_d_d, "cmge d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(cmgt_d_d_d, "cmgt d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(cmhi_d_d_d, "cmhi d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(cmhs_d_d_d, "cmhs d2, d11, d29", 2, 11, 29)
GEN_THREEVEC_TEST(cmtst_d_d_d, "cmtst d2, d11, d29", 2, 11, 29)
GEN_BINARY_TEST(cmeq, 2d, 2d, 2d)
GEN_BINARY_TEST(cmeq, 4s, 4s, 4s)
GEN_BINARY_TEST(cmeq, 2s, 2s, 2s)
GEN_BINARY_TEST(cmeq, 8h, 8h, 8h)
GEN_BINARY_TEST(cmeq, 4h, 4h, 4h)
GEN_BINARY_TEST(cmeq, 16b, 16b, 16b)
GEN_BINARY_TEST(cmeq, 8b, 8b, 8b)
GEN_BINARY_TEST(cmge, 2d, 2d, 2d)
GEN_BINARY_TEST(cmge, 4s, 4s, 4s)
GEN_BINARY_TEST(cmge, 2s, 2s, 2s)
GEN_BINARY_TEST(cmge, 8h, 8h, 8h)
GEN_BINARY_TEST(cmge, 4h, 4h, 4h)
GEN_BINARY_TEST(cmge, 16b, 16b, 16b)
GEN_BINARY_TEST(cmge, 8b, 8b, 8b)
GEN_BINARY_TEST(cmgt, 2d, 2d, 2d)
GEN_BINARY_TEST(cmgt, 4s, 4s, 4s)
GEN_BINARY_TEST(cmgt, 2s, 2s, 2s)
GEN_BINARY_TEST(cmgt, 8h, 8h, 8h)
GEN_BINARY_TEST(cmgt, 4h, 4h, 4h)
GEN_BINARY_TEST(cmgt, 16b, 16b, 16b)
GEN_BINARY_TEST(cmgt, 8b, 8b, 8b)
GEN_BINARY_TEST(cmhi, 2d, 2d, 2d)
GEN_BINARY_TEST(cmhi, 4s, 4s, 4s)
GEN_BINARY_TEST(cmhi, 2s, 2s, 2s)
GEN_BINARY_TEST(cmhi, 8h, 8h, 8h)
GEN_BINARY_TEST(cmhi, 4h, 4h, 4h)
GEN_BINARY_TEST(cmhi, 16b, 16b, 16b)
GEN_BINARY_TEST(cmhi, 8b, 8b, 8b)
GEN_BINARY_TEST(cmhs, 2d, 2d, 2d)
GEN_BINARY_TEST(cmhs, 4s, 4s, 4s)
GEN_BINARY_TEST(cmhs, 2s, 2s, 2s)
GEN_BINARY_TEST(cmhs, 8h, 8h, 8h)
GEN_BINARY_TEST(cmhs, 4h, 4h, 4h)
GEN_BINARY_TEST(cmhs, 16b, 16b, 16b)
GEN_BINARY_TEST(cmhs, 8b, 8b, 8b)
GEN_BINARY_TEST(cmtst, 2d, 2d, 2d)
GEN_BINARY_TEST(cmtst, 4s, 4s, 4s)
GEN_BINARY_TEST(cmtst, 2s, 2s, 2s)
GEN_BINARY_TEST(cmtst, 8h, 8h, 8h)
GEN_BINARY_TEST(cmtst, 4h, 4h, 4h)
GEN_BINARY_TEST(cmtst, 16b, 16b, 16b)
GEN_BINARY_TEST(cmtst, 8b, 8b, 8b)
GEN_TWOVEC_TEST(cmeq_zero_d_d, "cmeq d2, d11, #0", 2, 11)
GEN_TWOVEC_TEST(cmge_zero_d_d, "cmge d2, d11, #0", 2, 11)
GEN_TWOVEC_TEST(cmgt_zero_d_d, "cmgt d2, d11, #0", 2, 11)
GEN_TWOVEC_TEST(cmle_zero_d_d, "cmle d2, d11, #0", 2, 11)
GEN_TWOVEC_TEST(cmlt_zero_d_d, "cmlt d2, d11, #0", 2, 11)
GEN_TWOVEC_TEST(cmeq_zero_2d_2d, "cmeq v5.2d, v22.2d, #0", 5, 22)
GEN_TWOVEC_TEST(cmeq_zero_4s_4s, "cmeq v5.4s, v22.4s, #0", 5, 22)
GEN_TWOVEC_TEST(cmeq_zero_2s_2s, "cmeq v5.2s, v22.2s, #0", 5, 22)
GEN_TWOVEC_TEST(cmeq_zero_8h_8h, "cmeq v5.8h, v22.8h, #0", 5, 22)
GEN_TWOVEC_TEST(cmeq_zero_4h_4h, "cmeq v5.4h, v22.4h, #0", 5, 22)
GEN_TWOVEC_TEST(cmeq_zero_16b_16b, "cmeq v5.16b, v22.16b, #0", 5, 22)
GEN_TWOVEC_TEST(cmeq_zero_8b_8b, "cmeq v5.8b, v22.8b, #0", 5, 22)
GEN_TWOVEC_TEST(cmge_zero_2d_2d, "cmge v5.2d, v22.2d, #0", 5, 22)
GEN_TWOVEC_TEST(cmge_zero_4s_4s, "cmge v5.4s, v22.4s, #0", 5, 22)
GEN_TWOVEC_TEST(cmge_zero_2s_2s, "cmge v5.2s, v22.2s, #0", 5, 22)
GEN_TWOVEC_TEST(cmge_zero_8h_8h, "cmge v5.8h, v22.8h, #0", 5, 22)
GEN_TWOVEC_TEST(cmge_zero_4h_4h, "cmge v5.4h, v22.4h, #0", 5, 22)
GEN_TWOVEC_TEST(cmge_zero_16b_16b, "cmge v5.16b, v22.16b, #0", 5, 22)
GEN_TWOVEC_TEST(cmge_zero_8b_8b, "cmge v5.8b, v22.8b, #0", 5, 22)
GEN_TWOVEC_TEST(cmgt_zero_2d_2d, "cmgt v5.2d, v22.2d, #0", 5, 22)
GEN_TWOVEC_TEST(cmgt_zero_4s_4s, "cmgt v5.4s, v22.4s, #0", 5, 22)
GEN_TWOVEC_TEST(cmgt_zero_2s_2s, "cmgt v5.2s, v22.2s, #0", 5, 22)
GEN_TWOVEC_TEST(cmgt_zero_8h_8h, "cmgt v5.8h, v22.8h, #0", 5, 22)
GEN_TWOVEC_TEST(cmgt_zero_4h_4h, "cmgt v5.4h, v22.4h, #0", 5, 22)
GEN_TWOVEC_TEST(cmgt_zero_16b_16b, "cmgt v5.16b, v22.16b, #0", 5, 22)
GEN_TWOVEC_TEST(cmgt_zero_8b_8b, "cmgt v5.8b, v22.8b, #0", 5, 22)
GEN_TWOVEC_TEST(cmle_zero_2d_2d, "cmle v5.2d, v22.2d, #0", 5, 22)
GEN_TWOVEC_TEST(cmle_zero_4s_4s, "cmle v5.4s, v22.4s, #0", 5, 22)
GEN_TWOVEC_TEST(cmle_zero_2s_2s, "cmle v5.2s, v22.2s, #0", 5, 22)
GEN_TWOVEC_TEST(cmle_zero_8h_8h, "cmle v5.8h, v22.8h, #0", 5, 22)
GEN_TWOVEC_TEST(cmle_zero_4h_4h, "cmle v5.4h, v22.4h, #0", 5, 22)
GEN_TWOVEC_TEST(cmle_zero_16b_16b, "cmle v5.16b, v22.16b, #0", 5, 22)
GEN_TWOVEC_TEST(cmle_zero_8b_8b, "cmle v5.8b, v22.8b, #0", 5, 22)
GEN_TWOVEC_TEST(cmlt_zero_2d_2d, "cmlt v5.2d, v22.2d, #0", 5, 22)
GEN_TWOVEC_TEST(cmlt_zero_4s_4s, "cmlt v5.4s, v22.4s, #0", 5, 22)
GEN_TWOVEC_TEST(cmlt_zero_2s_2s, "cmlt v5.2s, v22.2s, #0", 5, 22)
GEN_TWOVEC_TEST(cmlt_zero_8h_8h, "cmlt v5.8h, v22.8h, #0", 5, 22)
GEN_TWOVEC_TEST(cmlt_zero_4h_4h, "cmlt v5.4h, v22.4h, #0", 5, 22)
GEN_TWOVEC_TEST(cmlt_zero_16b_16b, "cmlt v5.16b, v22.16b, #0", 5, 22)
GEN_TWOVEC_TEST(cmlt_zero_8b_8b, "cmlt v5.8b, v22.8b, #0", 5, 22)
GEN_UNARY_TEST(cnt, 16b, 16b)
GEN_UNARY_TEST(cnt, 8b, 8b)
GEN_TWOVEC_TEST(dup_d_d0, "dup d22, v23.d[0]", 22, 23)
GEN_TWOVEC_TEST(dup_d_d1, "dup d22, v23.d[1]", 22, 23)
GEN_TWOVEC_TEST(dup_s_s0, "dup s22, v23.s[0]", 22, 23)
GEN_TWOVEC_TEST(dup_s_s3, "dup s22, v23.s[3]", 22, 23)
GEN_TWOVEC_TEST(dup_h_h0, "dup h22, v23.h[0]", 22, 23)
GEN_TWOVEC_TEST(dup_h_h6, "dup h22, v23.h[6]", 22, 23)
GEN_TWOVEC_TEST(dup_b_b0, "dup b0, v23.b[0]", 22, 23)
GEN_TWOVEC_TEST(dup_b_b13, "dup b13, v23.b[13]", 22, 23)
GEN_TWOVEC_TEST(dup_2d_d0, "dup v9.2d, v17.d[0]", 9, 17)
GEN_TWOVEC_TEST(dup_2d_d1, "dup v9.2d, v17.d[1]", 9, 17)
GEN_TWOVEC_TEST(dup_4s_s0, "dup v9.4s, v17.s[0]", 9, 17)
GEN_TWOVEC_TEST(dup_4s_s3, "dup v9.4s, v17.s[3]", 9, 17)
GEN_TWOVEC_TEST(dup_2s_s0, "dup v9.2s, v17.s[0]", 9, 17)
GEN_TWOVEC_TEST(dup_2s_s2, "dup v9.2s, v17.s[2]", 9, 17)
GEN_TWOVEC_TEST(dup_8h_h0, "dup v9.8h, v17.h[0]", 9, 17)
GEN_TWOVEC_TEST(dup_8h_h6, "dup v9.8h, v17.h[6]", 9, 17)
GEN_TWOVEC_TEST(dup_4h_h1, "dup v9.4h, v17.h[1]", 9, 17)
GEN_TWOVEC_TEST(dup_4h_h5, "dup v9.4h, v17.h[5]", 9, 17)
GEN_TWOVEC_TEST(dup_16b_b2, "dup v9.16b, v17.b[2]", 9, 17)
GEN_TWOVEC_TEST(dup_16b_b12, "dup v9.16b, v17.b[12]", 9, 17)
GEN_TWOVEC_TEST(dup_8b_b3, "dup v9.8b, v17.b[3]", 9, 17)
GEN_TWOVEC_TEST(dup_8b_b13, "dup v9.8b, v17.b[13]", 9, 17)
GEN_TWOVEC_TEST(dup_2d_x, "mov x10, v17.d[0]; dup v9.2d, x10", 9, 17)
GEN_TWOVEC_TEST(dup_4s_w, "mov x10, v17.d[0]; dup v9.4s, w10", 9, 17)
GEN_TWOVEC_TEST(dup_2s_w, "mov x10, v17.d[0]; dup v9.2s, w10", 9, 17)
GEN_TWOVEC_TEST(dup_8h_w, "mov x10, v17.d[0]; dup v9.8h, w10", 9, 17)
GEN_TWOVEC_TEST(dup_4h_w, "mov x10, v17.d[0]; dup v9.4h, w10", 9, 17)
GEN_TWOVEC_TEST(dup_16b_w, "mov x10, v17.d[0]; dup v9.16b, w10", 9, 17)
GEN_TWOVEC_TEST(dup_8b_w, "mov x10, v17.d[0]; dup v9.8b, w10", 9, 17)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0x0,
"ext v2.16b, v11.16b, v29.16b, #0", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0x1,
"ext v2.16b, v11.16b, v29.16b, #1", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0x2,
"ext v2.16b, v11.16b, v29.16b, #2", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0x3,
"ext v2.16b, v11.16b, v29.16b, #3", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0x4,
"ext v2.16b, v11.16b, v29.16b, #4", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0x5,
"ext v2.16b, v11.16b, v29.16b, #5", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0x6,
"ext v2.16b, v11.16b, v29.16b, #6", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0x7,
"ext v2.16b, v11.16b, v29.16b, #7", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0x8,
"ext v2.16b, v11.16b, v29.16b, #8", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0x9,
"ext v2.16b, v11.16b, v29.16b, #9", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0xA,
"ext v2.16b, v11.16b, v29.16b, #10", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0xB,
"ext v2.16b, v11.16b, v29.16b, #11", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0xC,
"ext v2.16b, v11.16b, v29.16b, #12", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0xD,
"ext v2.16b, v11.16b, v29.16b, #13", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0xE,
"ext v2.16b, v11.16b, v29.16b, #14", 2, 11, 29)
GEN_THREEVEC_TEST(ext_16b_16b_16b_0xF,
"ext v2.16b, v11.16b, v29.16b, #15", 2, 11, 29)
GEN_THREEVEC_TEST(ext_8b_8b_8b_0x0,
"ext v2.8b, v11.8b, v29.8b, #0", 2, 11, 29)
GEN_THREEVEC_TEST(ext_8b_8b_8b_0x1,
"ext v2.8b, v11.8b, v29.8b, #1", 2, 11, 29)
GEN_THREEVEC_TEST(ext_8b_8b_8b_0x2,
"ext v2.8b, v11.8b, v29.8b, #2", 2, 11, 29)
GEN_THREEVEC_TEST(ext_8b_8b_8b_0x3,
"ext v2.8b, v11.8b, v29.8b, #3", 2, 11, 29)
GEN_THREEVEC_TEST(ext_8b_8b_8b_0x4,
"ext v2.8b, v11.8b, v29.8b, #4", 2, 11, 29)
GEN_THREEVEC_TEST(ext_8b_8b_8b_0x5,
"ext v2.8b, v11.8b, v29.8b, #5", 2, 11, 29)
GEN_THREEVEC_TEST(ext_8b_8b_8b_0x6,
"ext v2.8b, v11.8b, v29.8b, #6", 2, 11, 29)
GEN_THREEVEC_TEST(ext_8b_8b_8b_0x7,
"ext v2.8b, v11.8b, v29.8b, #7", 2, 11, 29)
GEN_TWOVEC_TEST(ins_d0_d0, "ins v3.d[0], v24.d[0]", 3, 24)
GEN_TWOVEC_TEST(ins_d0_d1, "ins v3.d[0], v24.d[1]", 3, 24)
GEN_TWOVEC_TEST(ins_d1_d0, "ins v3.d[1], v24.d[0]", 3, 24)
GEN_TWOVEC_TEST(ins_d1_d1, "ins v3.d[1], v24.d[1]", 3, 24)
GEN_TWOVEC_TEST(ins_s0_s2, "ins v3.s[0], v24.s[2]", 3, 24)
GEN_TWOVEC_TEST(ins_s3_s0, "ins v3.s[3], v24.s[0]", 3, 24)
GEN_TWOVEC_TEST(ins_s2_s1, "ins v3.s[2], v24.s[1]", 3, 24)
GEN_TWOVEC_TEST(ins_s1_s3, "ins v3.s[1], v24.s[3]", 3, 24)
GEN_TWOVEC_TEST(ins_h0_h6, "ins v3.h[0], v24.h[6]", 3, 24)
GEN_TWOVEC_TEST(ins_h7_h0, "ins v3.h[7], v24.h[0]", 3, 24)
GEN_TWOVEC_TEST(ins_h6_h1, "ins v3.h[6], v24.h[1]", 3, 24)
GEN_TWOVEC_TEST(ins_h1_h7, "ins v3.h[1], v24.h[7]", 3, 24)
GEN_TWOVEC_TEST(ins_b0_b14, "ins v3.b[0], v24.b[14]", 3, 24)
GEN_TWOVEC_TEST(ins_b15_b8, "ins v3.b[15], v24.b[8]", 3, 24)
GEN_TWOVEC_TEST(ins_b13_b9, "ins v3.b[13], v24.b[9]", 3, 24)
GEN_TWOVEC_TEST(ins_b5_b12, "ins v3.b[5], v24.b[12]", 3, 24)
// test_INS_general is a handwritten function
GEN_THREEVEC_TEST(mla_4s_4s_s0, "mla v2.4s, v11.4s, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(mla_4s_4s_s3, "mla v2.4s, v11.4s, v29.s[3]", 2, 11, 29)
GEN_THREEVEC_TEST(mla_2s_2s_s0, "mla v2.2s, v11.2s, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(mla_2s_2s_s3, "mla v2.2s, v11.2s, v29.s[3]", 2, 11, 29)
// For the 'h' version of these, Rm can only be <= 15 (!)
GEN_THREEVEC_TEST(mla_8h_8h_h1, "mla v2.8h, v11.8h, v2.h[1]", 2, 11, 9)
GEN_THREEVEC_TEST(mla_8h_8h_h5, "mla v2.8h, v11.8h, v2.h[5]", 2, 11, 9)
GEN_THREEVEC_TEST(mla_4h_4h_h2, "mla v2.4h, v11.4h, v2.h[2]", 2, 11, 9)
GEN_THREEVEC_TEST(mla_4h_4h_h7, "mla v2.4h, v11.4h, v2.h[7]", 2, 11, 9)
GEN_THREEVEC_TEST(mls_4s_4s_s0, "mls v2.4s, v11.4s, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(mls_4s_4s_s3, "mls v2.4s, v11.4s, v29.s[3]", 2, 11, 29)
GEN_THREEVEC_TEST(mls_2s_2s_s0, "mls v2.2s, v11.2s, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(mls_2s_2s_s3, "mls v2.2s, v11.2s, v29.s[3]", 2, 11, 29)
// For the 'h' version of these, Rm can only be <= 15 (!)
GEN_THREEVEC_TEST(mls_8h_8h_h1, "mls v2.8h, v11.8h, v2.h[1]", 2, 11, 9)
GEN_THREEVEC_TEST(mls_8h_8h_h5, "mls v2.8h, v11.8h, v2.h[5]", 2, 11, 9)
GEN_THREEVEC_TEST(mls_4h_4h_h2, "mls v2.4h, v11.4h, v2.h[2]", 2, 11, 9)
GEN_THREEVEC_TEST(mls_4h_4h_h7, "mls v2.4h, v11.4h, v2.h[7]", 2, 11, 9)
GEN_THREEVEC_TEST(mul_4s_4s_s0, "mul v2.4s, v11.4s, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(mul_4s_4s_s3, "mul v2.4s, v11.4s, v29.s[3]", 2, 11, 29)
GEN_THREEVEC_TEST(mul_2s_2s_s0, "mul v2.2s, v11.2s, v29.s[0]", 2, 11, 29)
GEN_THREEVEC_TEST(mul_2s_2s_s3, "mul v2.2s, v11.2s, v29.s[3]", 2, 11, 29)
// For the 'h' version of these, Rm can only be <= 15 (!)
GEN_THREEVEC_TEST(mul_8h_8h_h1, "mul v2.8h, v11.8h, v2.h[1]", 2, 11, 9)
GEN_THREEVEC_TEST(mul_8h_8h_h5, "mul v2.8h, v11.8h, v2.h[5]", 2, 11, 9)
GEN_THREEVEC_TEST(mul_4h_4h_h2, "mul v2.4h, v11.4h, v2.h[2]", 2, 11, 9)
GEN_THREEVEC_TEST(mul_4h_4h_h7, "mul v2.4h, v11.4h, v2.h[7]", 2, 11, 9)
GEN_BINARY_TEST(mla, 4s, 4s, 4s)
GEN_BINARY_TEST(mla, 2s, 2s, 2s)
GEN_BINARY_TEST(mla, 8h, 8h, 8h)
GEN_BINARY_TEST(mla, 4h, 4h, 4h)
GEN_BINARY_TEST(mla, 16b, 16b, 16b)
GEN_BINARY_TEST(mla, 8b, 8b, 8b)
GEN_BINARY_TEST(mls, 4s, 4s, 4s)
GEN_BINARY_TEST(mls, 2s, 2s, 2s)
GEN_BINARY_TEST(mls, 8h, 8h, 8h)
GEN_BINARY_TEST(mls, 4h, 4h, 4h)
GEN_BINARY_TEST(mls, 16b, 16b, 16b)
GEN_BINARY_TEST(mls, 8b, 8b, 8b)
GEN_BINARY_TEST(mul, 4s, 4s, 4s)
GEN_BINARY_TEST(mul, 2s, 2s, 2s)
GEN_BINARY_TEST(mul, 8h, 8h, 8h)
GEN_BINARY_TEST(mul, 4h, 4h, 4h)
GEN_BINARY_TEST(mul, 16b, 16b, 16b)
GEN_BINARY_TEST(mul, 8b, 8b, 8b)
/* overkill -- don't need two vecs, only one */
GEN_TWOVEC_TEST(movi_16b_0x9C_lsl0, "movi v22.16b, #0x9C, LSL #0", 22, 23)
GEN_TWOVEC_TEST(movi_8b_0x8B_lsl0, "movi v22.8b, #0x8B, LSL #0", 22, 23)
GEN_TWOVEC_TEST(movi_8h_0x5A_lsl0, "movi v22.8h, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(movi_8h_0xA5_lsl8, "movi v22.8h, #0xA5, LSL #8", 22, 23)
GEN_TWOVEC_TEST(movi_4h_0x5A_lsl0, "movi v22.4h, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(movi_4h_0xA5_lsl8, "movi v22.4h, #0xA5, LSL #8", 22, 23)
GEN_TWOVEC_TEST(mvni_8h_0x5A_lsl0, "mvni v22.8h, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(mvni_8h_0xA5_lsl8, "mvni v22.8h, #0xA5, LSL #8", 22, 23)
GEN_TWOVEC_TEST(mvni_4h_0x5A_lsl0, "mvni v22.4h, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(mvni_4h_0xA5_lsl8, "mvni v22.4h, #0xA5, LSL #8", 22, 23)
GEN_TWOVEC_TEST(movi_4s_0x5A_lsl0, "movi v22.4s, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(movi_4s_0x6B_lsl8, "movi v22.4s, #0x6B, LSL #8", 22, 23)
GEN_TWOVEC_TEST(movi_4s_0x49_lsl16, "movi v22.4s, #0x49, LSL #16", 22, 23)
GEN_TWOVEC_TEST(movi_4s_0x3D_lsl24, "movi v22.4s, #0x3D, LSL #24", 22, 23)
GEN_TWOVEC_TEST(movi_2s_0x5A_lsl0, "movi v22.2s, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(movi_2s_0x6B_lsl8, "movi v22.2s, #0x6B, LSL #8", 22, 23)
GEN_TWOVEC_TEST(movi_2s_0x49_lsl16, "movi v22.2s, #0x49, LSL #16", 22, 23)
GEN_TWOVEC_TEST(movi_2s_0x3D_lsl24, "movi v22.2s, #0x3D, LSL #24", 22, 23)
GEN_TWOVEC_TEST(mvni_4s_0x5A_lsl0, "mvni v22.4s, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(mvni_4s_0x6B_lsl8, "mvni v22.4s, #0x6B, LSL #8", 22, 23)
GEN_TWOVEC_TEST(mvni_4s_0x49_lsl16, "mvni v22.4s, #0x49, LSL #16", 22, 23)
GEN_TWOVEC_TEST(mvni_4s_0x3D_lsl24, "mvni v22.4s, #0x3D, LSL #24", 22, 23)
GEN_TWOVEC_TEST(mvni_2s_0x5A_lsl0, "mvni v22.2s, #0x5A, LSL #0", 22, 23)
GEN_TWOVEC_TEST(mvni_2s_0x6B_lsl8, "mvni v22.2s, #0x6B, LSL #8", 22, 23)
GEN_TWOVEC_TEST(mvni_2s_0x49_lsl16, "mvni v22.2s, #0x49, LSL #16", 22, 23)
GEN_TWOVEC_TEST(mvni_2s_0x3D_lsl24, "mvni v22.2s, #0x3D, LSL #24", 22, 23)
/* overkill -- don't need two vecs, only one */
GEN_TWOVEC_TEST(movi_4s_0x6B_msl8, "movi v22.4s, #0x6B, MSL #8", 22, 23)
GEN_TWOVEC_TEST(movi_4s_0x94_msl16, "movi v22.4s, #0x94, MSL #16", 22, 23)
GEN_TWOVEC_TEST(movi_2s_0x7A_msl8, "movi v22.2s, #0x7A, MSL #8", 22, 23)
GEN_TWOVEC_TEST(movi_2s_0xA5_msl16, "movi v22.2s, #0xA5, MSL #16", 22, 23)
GEN_TWOVEC_TEST(mvni_4s_0x6B_msl8, "mvni v22.4s, #0x6B, MSL #8", 22, 23)
GEN_TWOVEC_TEST(mvni_4s_0x94_msl16, "mvni v22.4s, #0x94, MSL #16", 22, 23)
GEN_TWOVEC_TEST(mvni_2s_0x7A_msl8, "mvni v22.2s, #0x7A, MSL #8", 22, 23)
GEN_TWOVEC_TEST(mvni_2s_0xA5_msl16, "mvni v22.2s, #0xA5, MSL #16", 22, 23)
GEN_TWOVEC_TEST(movi_d_0xA5, "movi d22, #0xFF00FF0000FF00FF", 22, 23)
GEN_TWOVEC_TEST(movi_2d_0xB4, "movi v22.2d, #0xFF00FFFF00FF0000", 22, 23)
GEN_UNARY_TEST(not, 16b, 16b)
GEN_UNARY_TEST(not, 8b, 8b)
GEN_BINARY_TEST(pmul, 16b, 16b, 16b)
GEN_BINARY_TEST(pmul, 8b, 8b, 8b)
GEN_BINARY_TEST(pmull, 8h, 8b, 8b)
GEN_BINARY_TEST(pmull2, 8h, 16b, 16b)
//GEN_BINARY_TEST(pmull, 1q, 1d, 1d)
//GEN_BINARY_TEST(pmull, 1q, 2d, 2d)
GEN_UNARY_TEST(rbit, 16b, 16b)
GEN_UNARY_TEST(rbit, 8b, 8b)
GEN_UNARY_TEST(rev16, 16b, 16b)
GEN_UNARY_TEST(rev16, 8b, 8b)
GEN_UNARY_TEST(rev32, 16b, 16b)
GEN_UNARY_TEST(rev32, 8b, 8b)
GEN_UNARY_TEST(rev32, 8h, 8h)
GEN_UNARY_TEST(rev32, 4h, 4h)
GEN_UNARY_TEST(rev64, 16b, 16b)
GEN_UNARY_TEST(rev64, 8b, 8b)
GEN_UNARY_TEST(rev64, 8h, 8h)
GEN_UNARY_TEST(rev64, 4h, 4h)
GEN_UNARY_TEST(rev64, 4s, 4s)
GEN_UNARY_TEST(rev64, 2s, 2s)
GEN_BINARY_TEST(saba, 4s, 4s, 4s)
GEN_BINARY_TEST(saba, 2s, 2s, 2s)
GEN_BINARY_TEST(saba, 8h, 8h, 8h)
GEN_BINARY_TEST(saba, 4h, 4h, 4h)
GEN_BINARY_TEST(saba, 16b, 16b, 16b)
GEN_BINARY_TEST(saba, 8b, 8b, 8b)
GEN_BINARY_TEST(uaba, 4s, 4s, 4s)
GEN_BINARY_TEST(uaba, 2s, 2s, 2s)
GEN_BINARY_TEST(uaba, 8h, 8h, 8h)
GEN_BINARY_TEST(uaba, 4h, 4h, 4h)
GEN_BINARY_TEST(uaba, 16b, 16b, 16b)
GEN_BINARY_TEST(uaba, 8b, 8b, 8b)
GEN_THREEVEC_TEST(sabal_2d_2s_2s, "sabal v2.2d, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(sabal2_2d_4s_4s, "sabal2 v2.2d, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(sabal_4s_4h_4h, "sabal v2.4s, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(sabal2_4s_8h_8h, "sabal2 v2.4s, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(sabal_8h_8b_8b, "sabal v2.8h, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(sabal2_8h_16b_16b,
"sabal2 v2.8h, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(uabal_2d_2s_2s, "uabal v2.2d, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(uabal2_2d_4s_4s, "uabal2 v2.2d, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(uabal_4s_4h_4h, "uabal v2.4s, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(uabal2_4s_8h_8h, "uabal2 v2.4s, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(uabal_8h_8b_8b, "uabal v2.8h, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(uabal2_8h_16b_16b,
"uabal2 v2.8h, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(sabd_4s_4s_4s, "sabd v2.4s, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(sabd_2s_2s_2s, "sabd v2.2s, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(sabd_8h_8h_8h, "sabd v2.8h, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(sabd_4h_4h_4h, "sabd v2.4h, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(sabd_16b_16b_16b, "sabd v2.16b, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(sabd_8b_8b_8b, "sabd v2.8b, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(uabd_4s_4s_4s, "uabd v2.4s, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(uabd_2s_2s_2s, "uabd v2.2s, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(uabd_8h_8h_8h, "uabd v2.8h, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(uabd_4h_4h_4h, "uabd v2.4h, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(uabd_16b_16b_16b, "uabd v2.16b, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(uabd_8b_8b_8b, "uabd v2.8b, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(sabdl_2d_2s_2s, "sabdl v2.2d, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(sabdl2_2d_4s_4s, "sabdl2 v2.2d, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(sabdl_4s_4h_4h, "sabdl v2.4s, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(sabdl2_4s_8h_8h, "sabdl2 v2.4s, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(sabdl_8h_8b_8b, "sabdl v2.8h, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(sabdl2_8h_16b_16b,
"sabdl2 v2.8h, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(uabdl_2d_2s_2s, "uabdl v2.2d, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(uabdl2_2d_4s_4s, "uabdl2 v2.2d, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(uabdl_4s_4h_4h, "uabdl v2.4s, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(uabdl2_4s_8h_8h, "uabdl2 v2.4s, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(uabdl_8h_8b_8b, "uabdl v2.8h, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(uabdl2_8h_16b_16b,
"uabdl2 v2.8h, v11.16b, v29.16b", 2, 11, 29)
GEN_TWOVEC_TEST(sadalp_4h_8b, "sadalp v3.4h, v19.8b", 3, 19)
GEN_TWOVEC_TEST(sadalp_8h_16b, "sadalp v3.8h, v19.16b", 3, 19)
GEN_TWOVEC_TEST(sadalp_2s_4h, "sadalp v3.2s, v19.4h", 3, 19)
GEN_TWOVEC_TEST(sadalp_4s_8h, "sadalp v3.4s, v19.8h", 3, 19)
GEN_TWOVEC_TEST(sadalp_1d_2s, "sadalp v3.1d, v19.2s", 3, 19)
GEN_TWOVEC_TEST(sadalp_2d_4s, "sadalp v3.2d, v19.4s", 3, 19)
GEN_TWOVEC_TEST(uadalp_4h_8b, "uadalp v3.4h, v19.8b", 3, 19)
GEN_TWOVEC_TEST(uadalp_8h_16b, "uadalp v3.8h, v19.16b", 3, 19)
GEN_TWOVEC_TEST(uadalp_2s_4h, "uadalp v3.2s, v19.4h", 3, 19)
GEN_TWOVEC_TEST(uadalp_4s_8h, "uadalp v3.4s, v19.8h", 3, 19)
GEN_TWOVEC_TEST(uadalp_1d_2s, "uadalp v3.1d, v19.2s", 3, 19)
GEN_TWOVEC_TEST(uadalp_2d_4s, "uadalp v3.2d, v19.4s", 3, 19)
GEN_THREEVEC_TEST(saddl_2d_2s_2s, "saddl v2.2d, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(saddl2_2d_4s_4s, "saddl2 v2.2d, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(saddl_4s_4h_4h, "saddl v2.4s, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(saddl2_4s_8h_8h, "saddl2 v2.4s, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(saddl_8h_8b_8b, "saddl v2.8h, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(saddl2_8h_16b_16b,
"saddl2 v2.8h, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(uaddl_2d_2s_2s, "uaddl v2.2d, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(uaddl2_2d_4s_4s, "uaddl2 v2.2d, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(uaddl_4s_4h_4h, "uaddl v2.4s, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(uaddl2_4s_8h_8h, "uaddl2 v2.4s, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(uaddl_8h_8b_8b, "uaddl v2.8h, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(uaddl2_8h_16b_16b,
"uaddl2 v2.8h, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(ssubl_2d_2s_2s, "ssubl v2.2d, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(ssubl2_2d_4s_4s, "ssubl2 v2.2d, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(ssubl_4s_4h_4h, "ssubl v2.4s, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(ssubl2_4s_8h_8h, "ssubl2 v2.4s, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(ssubl_8h_8b_8b, "ssubl v2.8h, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(ssubl2_8h_16b_16b,
"ssubl2 v2.8h, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(usubl_2d_2s_2s, "usubl v2.2d, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(usubl2_2d_4s_4s, "usubl2 v2.2d, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(usubl_4s_4h_4h, "usubl v2.4s, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(usubl2_4s_8h_8h, "usubl2 v2.4s, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(usubl_8h_8b_8b, "usubl v2.8h, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(usubl2_8h_16b_16b,
"usubl2 v2.8h, v11.16b, v29.16b", 2, 11, 29)
GEN_TWOVEC_TEST(saddlp_4h_8b, "saddlp v3.4h, v19.8b", 3, 19)
GEN_TWOVEC_TEST(saddlp_8h_16b, "saddlp v3.8h, v19.16b", 3, 19)
GEN_TWOVEC_TEST(saddlp_2s_4h, "saddlp v3.2s, v19.4h", 3, 19)
GEN_TWOVEC_TEST(saddlp_4s_8h, "saddlp v3.4s, v19.8h", 3, 19)
GEN_TWOVEC_TEST(saddlp_1d_2s, "saddlp v3.1d, v19.2s", 3, 19)
GEN_TWOVEC_TEST(saddlp_2d_4s, "saddlp v3.2d, v19.4s", 3, 19)
GEN_TWOVEC_TEST(uaddlp_4h_8b, "uaddlp v3.4h, v19.8b", 3, 19)
GEN_TWOVEC_TEST(uaddlp_8h_16b, "uaddlp v3.8h, v19.16b", 3, 19)
GEN_TWOVEC_TEST(uaddlp_2s_4h, "uaddlp v3.2s, v19.4h", 3, 19)
GEN_TWOVEC_TEST(uaddlp_4s_8h, "uaddlp v3.4s, v19.8h", 3, 19)
GEN_TWOVEC_TEST(uaddlp_1d_2s, "uaddlp v3.1d, v19.2s", 3, 19)
GEN_TWOVEC_TEST(uaddlp_2d_4s, "uaddlp v3.2d, v19.4s", 3, 19)
GEN_TWOVEC_TEST(saddlv_h_16b, "saddlv h3, v19.16b", 3, 19)
GEN_TWOVEC_TEST(saddlv_h_8b, "saddlv h3, v19.8b", 3, 19)
GEN_TWOVEC_TEST(saddlv_s_8h, "saddlv s3, v19.8h", 3, 19)
GEN_TWOVEC_TEST(saddlv_s_4h, "saddlv s3, v19.4h", 3, 19)
GEN_TWOVEC_TEST(saddlv_d_4s, "saddlv d3, v19.4s", 3, 19)
GEN_TWOVEC_TEST(uaddlv_h_16b, "uaddlv h3, v19.16b", 3, 19)
GEN_TWOVEC_TEST(uaddlv_h_8b, "uaddlv h3, v19.8b", 3, 19)
GEN_TWOVEC_TEST(uaddlv_s_8h, "uaddlv s3, v19.8h", 3, 19)
GEN_TWOVEC_TEST(uaddlv_s_4h, "uaddlv s3, v19.4h", 3, 19)
GEN_TWOVEC_TEST(uaddlv_d_4s, "uaddlv d3, v19.4s", 3, 19)
GEN_THREEVEC_TEST(saddw2_8h_8h_16b, "saddw2 v5.8h, v13.8h, v31.16b", 5, 13, 31)
GEN_THREEVEC_TEST(saddw_8h_8h_8b, "saddw v5.8h, v13.8h, v31.8b", 5, 13, 31)
GEN_THREEVEC_TEST(saddw2_4s_4s_8h, "saddw2 v5.4s, v13.4s, v31.8h", 5, 13, 31)
GEN_THREEVEC_TEST(saddw_4s_4s_4h, "saddw v5.4s, v13.4s, v31.4h", 5, 13, 31)
GEN_THREEVEC_TEST(saddw2_2d_2d_4s, "saddw2 v5.2d, v13.2d, v31.4s", 5, 13, 31)
GEN_THREEVEC_TEST(saddw_2d_2d_2s, "saddw v5.2d, v13.2d, v31.2s", 5, 13, 31)
GEN_THREEVEC_TEST(uaddw2_8h_8h_16b, "uaddw2 v5.8h, v13.8h, v31.16b", 5, 13, 31)
GEN_THREEVEC_TEST(uaddw_8h_8h_8b, "uaddw v5.8h, v13.8h, v31.8b", 5, 13, 31)
GEN_THREEVEC_TEST(uaddw2_4s_4s_8h, "uaddw2 v5.4s, v13.4s, v31.8h", 5, 13, 31)
GEN_THREEVEC_TEST(uaddw_4s_4s_4h, "uaddw v5.4s, v13.4s, v31.4h", 5, 13, 31)
GEN_THREEVEC_TEST(uaddw2_2d_2d_4s, "uaddw2 v5.2d, v13.2d, v31.4s", 5, 13, 31)
GEN_THREEVEC_TEST(uaddw_2d_2d_2s, "uaddw v5.2d, v13.2d, v31.2s", 5, 13, 31)
GEN_THREEVEC_TEST(ssubw2_8h_8h_16b, "ssubw2 v5.8h, v13.8h, v31.16b", 5, 13, 31)
GEN_THREEVEC_TEST(ssubw_8h_8h_8b, "ssubw v5.8h, v13.8h, v31.8b", 5, 13, 31)
GEN_THREEVEC_TEST(ssubw2_4s_4s_8h, "ssubw2 v5.4s, v13.4s, v31.8h", 5, 13, 31)
GEN_THREEVEC_TEST(ssubw_4s_4s_4h, "ssubw v5.4s, v13.4s, v31.4h", 5, 13, 31)
GEN_THREEVEC_TEST(ssubw2_2d_2d_4s, "ssubw2 v5.2d, v13.2d, v31.4s", 5, 13, 31)
GEN_THREEVEC_TEST(ssubw_2d_2d_2s, "ssubw v5.2d, v13.2d, v31.2s", 5, 13, 31)
GEN_THREEVEC_TEST(usubw2_8h_8h_16b, "usubw2 v5.8h, v13.8h, v31.16b", 5, 13, 31)
GEN_THREEVEC_TEST(usubw_8h_8h_8b, "usubw v5.8h, v13.8h, v31.8b", 5, 13, 31)
GEN_THREEVEC_TEST(usubw2_4s_4s_8h, "usubw2 v5.4s, v13.4s, v31.8h", 5, 13, 31)
GEN_THREEVEC_TEST(usubw_4s_4s_4h, "usubw v5.4s, v13.4s, v31.4h", 5, 13, 31)
GEN_THREEVEC_TEST(usubw2_2d_2d_4s, "usubw2 v5.2d, v13.2d, v31.4s", 5, 13, 31)
GEN_THREEVEC_TEST(usubw_2d_2d_2s, "usubw v5.2d, v13.2d, v31.2s", 5, 13, 31)
GEN_THREEVEC_TEST(shadd_4s_4s_4s, "shadd v2.4s, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(shadd_2s_2s_2s, "shadd v2.2s, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(shadd_8h_8h_8h, "shadd v2.8h, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(shadd_4h_4h_4h, "shadd v2.4h, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(shadd_16b_16b_16b,"shadd v2.16b, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(shadd_8b_8b_8b, "shadd v2.8b, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(uhadd_4s_4s_4s, "uhadd v2.4s, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(uhadd_2s_2s_2s, "uhadd v2.2s, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(uhadd_8h_8h_8h, "uhadd v2.8h, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(uhadd_4h_4h_4h, "uhadd v2.4h, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(uhadd_16b_16b_16b,"uhadd v2.16b, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(uhadd_8b_8b_8b, "uhadd v2.8b, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(shsub_4s_4s_4s, "shsub v2.4s, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(shsub_2s_2s_2s, "shsub v2.2s, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(shsub_8h_8h_8h, "shsub v2.8h, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(shsub_4h_4h_4h, "shsub v2.4h, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(shsub_16b_16b_16b,"shsub v2.16b, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(shsub_8b_8b_8b, "shsub v2.8b, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(uhsub_4s_4s_4s, "uhsub v2.4s, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(uhsub_2s_2s_2s, "uhsub v2.2s, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(uhsub_8h_8h_8h, "uhsub v2.8h, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(uhsub_4h_4h_4h, "uhsub v2.4h, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(uhsub_16b_16b_16b,"uhsub v2.16b, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(uhsub_8b_8b_8b, "uhsub v2.8b, v11.8b, v29.8b", 2, 11, 29)
GEN_TWOVEC_TEST(shll_8h_8b_8, "shll v3.8h, v24.8b, #8", 3, 24)
GEN_TWOVEC_TEST(shll2_8h_16b_8, "shll2 v3.8h, v24.16b, #8", 3, 24)
GEN_TWOVEC_TEST(shll_4s_4h_16, "shll v3.4s, v24.4h, #16", 3, 24)
GEN_TWOVEC_TEST(shll2_4s_8h_16, "shll2 v3.4s, v24.8h, #16", 3, 24)
GEN_TWOVEC_TEST(shll_2d_2s_32, "shll v3.2d, v24.2s, #32", 3, 24)
GEN_TWOVEC_TEST(shll2_2d_4s_32, "shll2 v3.2d, v24.4s, #32", 3, 24)
GEN_TWOVEC_TEST(shrn_2s_2d_1, "shrn v4.2s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(shrn_2s_2d_32, "shrn v4.2s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(shrn2_4s_2d_1, "shrn2 v4.4s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(shrn2_4s_2d_32, "shrn2 v4.4s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(shrn_4h_4s_1, "shrn v4.4h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(shrn_4h_4s_16, "shrn v4.4h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(shrn2_8h_4s_1, "shrn2 v4.8h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(shrn2_8h_4s_16, "shrn2 v4.8h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(shrn_8b_8h_1, "shrn v4.8b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(shrn_8b_8h_8, "shrn v4.8b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(shrn2_16b_8h_1, "shrn2 v4.16b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(shrn2_16b_8h_8, "shrn2 v4.16b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(rshrn_2s_2d_1, "rshrn v4.2s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(rshrn_2s_2d_32, "rshrn v4.2s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(rshrn2_4s_2d_1, "rshrn2 v4.4s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(rshrn2_4s_2d_32, "rshrn2 v4.4s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(rshrn_4h_4s_1, "rshrn v4.4h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(rshrn_4h_4s_16, "rshrn v4.4h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(rshrn2_8h_4s_1, "rshrn2 v4.8h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(rshrn2_8h_4s_16, "rshrn2 v4.8h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(rshrn_8b_8h_1, "rshrn v4.8b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(rshrn_8b_8h_8, "rshrn v4.8b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(rshrn2_16b_8h_1, "rshrn2 v4.16b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(rshrn2_16b_8h_8, "rshrn2 v4.16b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(sli_d_d_0, "sli d5, d28, #0", 5, 28)
GEN_TWOVEC_TEST(sli_d_d_32, "sli d5, d28, #32", 5, 28)
GEN_TWOVEC_TEST(sli_d_d_63, "sli d5, d28, #63", 5, 28)
GEN_TWOVEC_TEST(sri_d_d_1, "sri d5, d28, #1", 5, 28)
GEN_TWOVEC_TEST(sri_d_d_33, "sri d5, d28, #33", 5, 28)
GEN_TWOVEC_TEST(sri_d_d_64, "sri d5, d28, #64", 5, 28)
GEN_TWOVEC_TEST(sli_2d_2d_0, "sli v6.2d, v27.2d, #0", 6, 27)
GEN_TWOVEC_TEST(sli_2d_2d_32, "sli v6.2d, v27.2d, #32", 6, 27)
GEN_TWOVEC_TEST(sli_2d_2d_63, "sli v6.2d, v27.2d, #63", 6, 27)
GEN_TWOVEC_TEST(sli_4s_4s_0, "sli v6.4s, v27.4s, #0", 6, 27)
GEN_TWOVEC_TEST(sli_4s_4s_16, "sli v6.4s, v27.4s, #16", 6, 27)
GEN_TWOVEC_TEST(sli_4s_4s_31, "sli v6.4s, v27.4s, #31", 6, 27)
GEN_TWOVEC_TEST(sli_2s_2s_0, "sli v6.2s, v27.2s, #0", 6, 27)
GEN_TWOVEC_TEST(sli_2s_2s_16, "sli v6.2s, v27.2s, #16", 6, 27)
GEN_TWOVEC_TEST(sli_2s_2s_31, "sli v6.2s, v27.2s, #31", 6, 27)
GEN_TWOVEC_TEST(sli_8h_8h_0, "sli v6.8h, v27.8h, #0", 6, 27)
GEN_TWOVEC_TEST(sli_8h_8h_8, "sli v6.8h, v27.8h, #8", 6, 27)
GEN_TWOVEC_TEST(sli_8h_8h_15, "sli v6.8h, v27.8h, #15", 6, 27)
GEN_TWOVEC_TEST(sli_4h_4h_0, "sli v6.4h, v27.4h, #0", 6, 27)
GEN_TWOVEC_TEST(sli_4h_4h_8, "sli v6.4h, v27.4h, #8", 6, 27)
GEN_TWOVEC_TEST(sli_4h_4h_15, "sli v6.4h, v27.4h, #15", 6, 27)
GEN_TWOVEC_TEST(sli_16b_16b_0, "sli v6.16b, v27.16b, #0", 6, 27)
GEN_TWOVEC_TEST(sli_16b_16b_3, "sli v6.16b, v27.16b, #3", 6, 27)
GEN_TWOVEC_TEST(sli_16b_16b_7, "sli v6.16b, v27.16b, #7", 6, 27)
GEN_TWOVEC_TEST(sli_8b_8b_0, "sli v6.8b, v27.8b, #0", 6, 27)
GEN_TWOVEC_TEST(sli_8b_8b_3, "sli v6.8b, v27.8b, #3", 6, 27)
GEN_TWOVEC_TEST(sli_8b_8b_7, "sli v6.8b, v27.8b, #7", 6, 27)
GEN_TWOVEC_TEST(sri_2d_2d_1, "sri v6.2d, v27.2d, #1", 6, 27)
GEN_TWOVEC_TEST(sri_2d_2d_33, "sri v6.2d, v27.2d, #33", 6, 27)
GEN_TWOVEC_TEST(sri_2d_2d_64, "sri v6.2d, v27.2d, #64", 6, 27)
GEN_TWOVEC_TEST(sri_4s_4s_1, "sri v6.4s, v27.4s, #1", 6, 27)
GEN_TWOVEC_TEST(sri_4s_4s_17, "sri v6.4s, v27.4s, #17", 6, 27)
GEN_TWOVEC_TEST(sri_4s_4s_32, "sri v6.4s, v27.4s, #32", 6, 27)
GEN_TWOVEC_TEST(sri_2s_2s_1, "sri v6.2s, v27.2s, #1", 6, 27)
GEN_TWOVEC_TEST(sri_2s_2s_17, "sri v6.2s, v27.2s, #17", 6, 27)
GEN_TWOVEC_TEST(sri_2s_2s_32, "sri v6.2s, v27.2s, #32", 6, 27)
GEN_TWOVEC_TEST(sri_8h_8h_1, "sri v6.8h, v27.8h, #1", 6, 27)
GEN_TWOVEC_TEST(sri_8h_8h_8, "sri v6.8h, v27.8h, #8", 6, 27)
GEN_TWOVEC_TEST(sri_8h_8h_16, "sri v6.8h, v27.8h, #16", 6, 27)
GEN_TWOVEC_TEST(sri_4h_4h_1, "sri v6.4h, v27.4h, #1", 6, 27)
GEN_TWOVEC_TEST(sri_4h_4h_8, "sri v6.4h, v27.4h, #8", 6, 27)
GEN_TWOVEC_TEST(sri_4h_4h_16, "sri v6.4h, v27.4h, #16", 6, 27)
GEN_TWOVEC_TEST(sri_16b_16b_1, "sri v6.16b, v27.16b, #1", 6, 27)
GEN_TWOVEC_TEST(sri_16b_16b_4, "sri v6.16b, v27.16b, #4", 6, 27)
GEN_TWOVEC_TEST(sri_16b_16b_8, "sri v6.16b, v27.16b, #8", 6, 27)
GEN_TWOVEC_TEST(sri_8b_8b_1, "sri v6.8b, v27.8b, #1", 6, 27)
GEN_TWOVEC_TEST(sri_8b_8b_4, "sri v6.8b, v27.8b, #4", 6, 27)
GEN_TWOVEC_TEST(sri_8b_8b_8, "sri v6.8b, v27.8b, #8", 6, 27)
GEN_BINARY_TEST(smax, 4s, 4s, 4s)
GEN_BINARY_TEST(smax, 2s, 2s, 2s)
GEN_BINARY_TEST(smax, 8h, 8h, 8h)
GEN_BINARY_TEST(smax, 4h, 4h, 4h)
GEN_BINARY_TEST(smax, 16b, 16b, 16b)
GEN_BINARY_TEST(smax, 8b, 8b, 8b)
GEN_BINARY_TEST(umax, 4s, 4s, 4s)
GEN_BINARY_TEST(umax, 2s, 2s, 2s)
GEN_BINARY_TEST(umax, 8h, 8h, 8h)
GEN_BINARY_TEST(umax, 4h, 4h, 4h)
GEN_BINARY_TEST(umax, 16b, 16b, 16b)
GEN_BINARY_TEST(umax, 8b, 8b, 8b)
GEN_BINARY_TEST(smin, 4s, 4s, 4s)
GEN_BINARY_TEST(smin, 2s, 2s, 2s)
GEN_BINARY_TEST(smin, 8h, 8h, 8h)
GEN_BINARY_TEST(smin, 4h, 4h, 4h)
GEN_BINARY_TEST(smin, 16b, 16b, 16b)
GEN_BINARY_TEST(smin, 8b, 8b, 8b)
GEN_BINARY_TEST(umin, 4s, 4s, 4s)
GEN_BINARY_TEST(umin, 2s, 2s, 2s)
GEN_BINARY_TEST(umin, 8h, 8h, 8h)
GEN_BINARY_TEST(umin, 4h, 4h, 4h)
GEN_BINARY_TEST(umin, 16b, 16b, 16b)
GEN_BINARY_TEST(umin, 8b, 8b, 8b)
GEN_BINARY_TEST(smaxp, 4s, 4s, 4s)
GEN_BINARY_TEST(smaxp, 2s, 2s, 2s)
GEN_BINARY_TEST(smaxp, 8h, 8h, 8h)
GEN_BINARY_TEST(smaxp, 4h, 4h, 4h)
GEN_BINARY_TEST(smaxp, 16b, 16b, 16b)
GEN_BINARY_TEST(smaxp, 8b, 8b, 8b)
GEN_BINARY_TEST(umaxp, 4s, 4s, 4s)
GEN_BINARY_TEST(umaxp, 2s, 2s, 2s)
GEN_BINARY_TEST(umaxp, 8h, 8h, 8h)
GEN_BINARY_TEST(umaxp, 4h, 4h, 4h)
GEN_BINARY_TEST(umaxp, 16b, 16b, 16b)
GEN_BINARY_TEST(umaxp, 8b, 8b, 8b)
GEN_BINARY_TEST(sminp, 4s, 4s, 4s)
GEN_BINARY_TEST(sminp, 2s, 2s, 2s)
GEN_BINARY_TEST(sminp, 8h, 8h, 8h)
GEN_BINARY_TEST(sminp, 4h, 4h, 4h)
GEN_BINARY_TEST(sminp, 16b, 16b, 16b)
GEN_BINARY_TEST(sminp, 8b, 8b, 8b)
GEN_BINARY_TEST(uminp, 4s, 4s, 4s)
GEN_BINARY_TEST(uminp, 2s, 2s, 2s)
GEN_BINARY_TEST(uminp, 8h, 8h, 8h)
GEN_BINARY_TEST(uminp, 4h, 4h, 4h)
GEN_BINARY_TEST(uminp, 16b, 16b, 16b)
GEN_BINARY_TEST(uminp, 8b, 8b, 8b)
// test_SMAXV is a handwritten function
// test_UMAXV is a handwritten function
// test_SMINV is a handwritten function
// test_UMINV is a handwritten function
GEN_THREEVEC_TEST(smlal_2d_2s_s0, "smlal v29.2d, v20.2s, v3.s[0]", 29, 20, 3)
GEN_THREEVEC_TEST(smlal_2d_2s_s3, "smlal v29.2d, v20.2s, v3.s[3]", 29, 20, 3)
GEN_THREEVEC_TEST(smlal2_2d_4s_s1, "smlal2 v29.2d, v20.4s, v3.s[1]", 29, 20, 3)
GEN_THREEVEC_TEST(smlal2_2d_4s_s2, "smlal2 v29.2d, v20.4s, v3.s[2]", 29, 20, 3)
GEN_THREEVEC_TEST(smlal_4s_4h_h0, "smlal v29.4s, v20.4h, v3.h[0]", 29, 20, 3)
GEN_THREEVEC_TEST(smlal_4s_4h_h7, "smlal v29.4s, v20.4h, v3.h[7]", 29, 20, 3)
GEN_THREEVEC_TEST(smlal2_4s_8h_h1, "smlal2 v29.4s, v20.8h, v3.h[1]", 29, 20, 3)
GEN_THREEVEC_TEST(smlal2_4s_8h_h4, "smlal2 v29.4s, v20.8h, v3.h[1]", 29, 20, 3)
GEN_THREEVEC_TEST(umlal_2d_2s_s0, "umlal v29.2d, v20.2s, v3.s[0]", 29, 20, 3)
GEN_THREEVEC_TEST(umlal_2d_2s_s3, "umlal v29.2d, v20.2s, v3.s[3]", 29, 20, 3)
GEN_THREEVEC_TEST(umlal2_2d_4s_s1, "umlal2 v29.2d, v20.4s, v3.s[1]", 29, 20, 3)
GEN_THREEVEC_TEST(umlal2_2d_4s_s2, "umlal2 v29.2d, v20.4s, v3.s[2]", 29, 20, 3)
GEN_THREEVEC_TEST(umlal_4s_4h_h0, "umlal v29.4s, v20.4h, v3.h[0]", 29, 20, 3)
GEN_THREEVEC_TEST(umlal_4s_4h_h7, "umlal v29.4s, v20.4h, v3.h[7]", 29, 20, 3)
GEN_THREEVEC_TEST(umlal2_4s_8h_h1, "umlal2 v29.4s, v20.8h, v3.h[1]", 29, 20, 3)
GEN_THREEVEC_TEST(umlal2_4s_8h_h4, "umlal2 v29.4s, v20.8h, v3.h[1]", 29, 20, 3)
GEN_THREEVEC_TEST(smlsl_2d_2s_s0, "smlsl v29.2d, v20.2s, v3.s[0]", 29, 20, 3)
GEN_THREEVEC_TEST(smlsl_2d_2s_s3, "smlsl v29.2d, v20.2s, v3.s[3]", 29, 20, 3)
GEN_THREEVEC_TEST(smlsl2_2d_4s_s1, "smlsl2 v29.2d, v20.4s, v3.s[1]", 29, 20, 3)
GEN_THREEVEC_TEST(smlsl2_2d_4s_s2, "smlsl2 v29.2d, v20.4s, v3.s[2]", 29, 20, 3)
GEN_THREEVEC_TEST(smlsl_4s_4h_h0, "smlsl v29.4s, v20.4h, v3.h[0]", 29, 20, 3)
GEN_THREEVEC_TEST(smlsl_4s_4h_h7, "smlsl v29.4s, v20.4h, v3.h[7]", 29, 20, 3)
GEN_THREEVEC_TEST(smlsl2_4s_8h_h1, "smlsl2 v29.4s, v20.8h, v3.h[1]", 29, 20, 3)
GEN_THREEVEC_TEST(smlsl2_4s_8h_h4, "smlsl2 v29.4s, v20.8h, v3.h[1]", 29, 20, 3)
GEN_THREEVEC_TEST(umlsl_2d_2s_s0, "umlsl v29.2d, v20.2s, v3.s[0]", 29, 20, 3)
GEN_THREEVEC_TEST(umlsl_2d_2s_s3, "umlsl v29.2d, v20.2s, v3.s[3]", 29, 20, 3)
GEN_THREEVEC_TEST(umlsl2_2d_4s_s1, "umlsl2 v29.2d, v20.4s, v3.s[1]", 29, 20, 3)
GEN_THREEVEC_TEST(umlsl2_2d_4s_s2, "umlsl2 v29.2d, v20.4s, v3.s[2]", 29, 20, 3)
GEN_THREEVEC_TEST(umlsl_4s_4h_h0, "umlsl v29.4s, v20.4h, v3.h[0]", 29, 20, 3)
GEN_THREEVEC_TEST(umlsl_4s_4h_h7, "umlsl v29.4s, v20.4h, v3.h[7]", 29, 20, 3)
GEN_THREEVEC_TEST(umlsl2_4s_8h_h1, "umlsl2 v29.4s, v20.8h, v3.h[1]", 29, 20, 3)
GEN_THREEVEC_TEST(umlsl2_4s_8h_h4, "umlsl2 v29.4s, v20.8h, v3.h[1]", 29, 20, 3)
GEN_THREEVEC_TEST(smull_2d_2s_s0, "smull v29.2d, v20.2s, v3.s[0]", 29, 20, 3)
GEN_THREEVEC_TEST(smull_2d_2s_s3, "smull v29.2d, v20.2s, v3.s[3]", 29, 20, 3)
GEN_THREEVEC_TEST(smull2_2d_4s_s1, "smull2 v29.2d, v20.4s, v3.s[1]", 29, 20, 3)
GEN_THREEVEC_TEST(smull2_2d_4s_s2, "smull2 v29.2d, v20.4s, v3.s[2]", 29, 20, 3)
GEN_THREEVEC_TEST(smull_4s_4h_h0, "smull v29.4s, v20.4h, v3.h[0]", 29, 20, 3)
GEN_THREEVEC_TEST(smull_4s_4h_h7, "smull v29.4s, v20.4h, v3.h[7]", 29, 20, 3)
GEN_THREEVEC_TEST(smull2_4s_8h_h1, "smull2 v29.4s, v20.8h, v3.h[1]", 29, 20, 3)
GEN_THREEVEC_TEST(smull2_4s_8h_h4, "smull2 v29.4s, v20.8h, v3.h[1]", 29, 20, 3)
GEN_THREEVEC_TEST(umull_2d_2s_s0, "umull v29.2d, v20.2s, v3.s[0]", 29, 20, 3)
GEN_THREEVEC_TEST(umull_2d_2s_s3, "umull v29.2d, v20.2s, v3.s[3]", 29, 20, 3)
GEN_THREEVEC_TEST(umull2_2d_4s_s1, "umull2 v29.2d, v20.4s, v3.s[1]", 29, 20, 3)
GEN_THREEVEC_TEST(umull2_2d_4s_s2, "umull2 v29.2d, v20.4s, v3.s[2]", 29, 20, 3)
GEN_THREEVEC_TEST(umull_4s_4h_h0, "umull v29.4s, v20.4h, v3.h[0]", 29, 20, 3)
GEN_THREEVEC_TEST(umull_4s_4h_h7, "umull v29.4s, v20.4h, v3.h[7]", 29, 20, 3)
GEN_THREEVEC_TEST(umull2_4s_8h_h1, "umull2 v29.4s, v20.8h, v3.h[1]", 29, 20, 3)
GEN_THREEVEC_TEST(umull2_4s_8h_h4, "umull2 v29.4s, v20.8h, v3.h[1]", 29, 20, 3)
GEN_THREEVEC_TEST(smlal_2d_2s_2s, "smlal v2.2d, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(smlal2_2d_4s_4s, "smlal2 v2.2d, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(smlal_4s_4h_4h, "smlal v2.4s, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(smlal2_4s_8h_8h, "smlal2 v2.4s, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(smlal_8h_8b_8b, "smlal v2.8h, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(smlal2_8h_16b_16b,
"smlal2 v2.8h, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(umlal_2d_2s_2s, "umlal v2.2d, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(umlal2_2d_4s_4s, "umlal2 v2.2d, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(umlal_4s_4h_4h, "umlal v2.4s, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(umlal2_4s_8h_8h, "umlal2 v2.4s, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(umlal_8h_8b_8b, "umlal v2.8h, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(umlal2_8h_16b_16b,
"umlal2 v2.8h, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(smlsl_2d_2s_2s, "smlsl v2.2d, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(smlsl2_2d_4s_4s, "smlsl2 v2.2d, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(smlsl_4s_4h_4h, "smlsl v2.4s, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(smlsl2_4s_8h_8h, "smlsl2 v2.4s, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(smlsl_8h_8b_8b, "smlsl v2.8h, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(smlsl2_8h_16b_16b,
"smlsl2 v2.8h, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(umlsl_2d_2s_2s, "umlsl v2.2d, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(umlsl2_2d_4s_4s, "umlsl2 v2.2d, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(umlsl_4s_4h_4h, "umlsl v2.4s, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(umlsl2_4s_8h_8h, "umlsl2 v2.4s, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(umlsl_8h_8b_8b, "umlsl v2.8h, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(umlsl2_8h_16b_16b,
"umlsl2 v2.8h, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(smull_2d_2s_2s, "smull v2.2d, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(smull2_2d_4s_4s, "smull2 v2.2d, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(smull_4s_4h_4h, "smull v2.4s, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(smull2_4s_8h_8h, "smull2 v2.4s, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(smull_8h_8b_8b, "smull v2.8h, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(smull2_8h_16b_16b,
"smull2 v2.8h, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(umull_2d_2s_2s, "umull v2.2d, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(umull2_2d_4s_4s, "umull2 v2.2d, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(umull_4s_4h_4h, "umull v2.4s, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(umull2_4s_8h_8h, "umull2 v2.4s, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(umull_8h_8b_8b, "umull v2.8h, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(umull2_8h_16b_16b,
"umull2 v2.8h, v11.16b, v29.16b", 2, 11, 29)
GEN_ONEINT_ONEVEC_TEST(umov_x_d0, "umov x9, v10.d[0]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(umov_x_d1, "umov x9, v10.d[1]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(umov_w_s0, "umov w9, v10.s[0]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(umov_w_s3, "umov w9, v10.s[3]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(umov_w_h0, "umov w9, v10.h[0]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(umov_w_h7, "umov w9, v10.h[7]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(umov_w_b0, "umov w9, v10.b[0]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(umov_w_b15, "umov w9, v10.b[15]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(smov_x_s0, "smov x9, v10.s[0]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(smov_x_s3, "smov x9, v10.s[3]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(smov_x_h0, "smov x9, v10.h[0]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(smov_x_h7, "smov x9, v10.h[7]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(smov_w_h0, "smov w9, v10.h[0]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(smov_w_h7, "smov w9, v10.h[7]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(smov_x_b0, "smov x9, v10.b[0]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(smov_x_b15, "smov x9, v10.b[15]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(smov_w_b0, "smov w9, v10.b[0]", 9, 10)
GEN_ONEINT_ONEVEC_TEST(smov_w_b15, "smov w9, v10.b[15]", 9, 10)
GEN_TWOVEC_TEST(sqabs_d_d, "sqabs d7, d30", 7, 30)
GEN_TWOVEC_TEST(sqabs_s_s, "sqabs s7, s30", 7, 30)
GEN_TWOVEC_TEST(sqabs_h_h, "sqabs h7, h30", 7, 30)
GEN_TWOVEC_TEST(sqabs_b_b, "sqabs b7, b30", 7, 30)
GEN_TWOVEC_TEST(sqneg_d_d, "sqneg d7, d30", 7, 30)
GEN_TWOVEC_TEST(sqneg_s_s, "sqneg s7, s30", 7, 30)
GEN_TWOVEC_TEST(sqneg_h_h, "sqneg h7, h30", 7, 30)
GEN_TWOVEC_TEST(sqneg_b_b, "sqneg b7, b30", 7, 30)
GEN_UNARY_TEST(sqabs, 2d, 2d)
GEN_UNARY_TEST(sqabs, 4s, 4s)
GEN_UNARY_TEST(sqabs, 2s, 2s)
GEN_UNARY_TEST(sqabs, 8h, 8h)
GEN_UNARY_TEST(sqabs, 4h, 4h)
GEN_UNARY_TEST(sqabs, 16b, 16b)
GEN_UNARY_TEST(sqabs, 8b, 8b)
GEN_UNARY_TEST(sqneg, 2d, 2d)
GEN_UNARY_TEST(sqneg, 4s, 4s)
GEN_UNARY_TEST(sqneg, 2s, 2s)
GEN_UNARY_TEST(sqneg, 8h, 8h)
GEN_UNARY_TEST(sqneg, 4h, 4h)
GEN_UNARY_TEST(sqneg, 16b, 16b)
GEN_UNARY_TEST(sqneg, 8b, 8b)
GEN_THREEVEC_TEST(sqadd_d_d_d, "sqadd d1, d2, d4", 1, 2, 4)
GEN_THREEVEC_TEST(sqadd_s_s_s, "sqadd s1, s2, s4", 1, 2, 4)
GEN_THREEVEC_TEST(sqadd_h_h_h, "sqadd h1, h2, h4", 1, 2, 4)
GEN_THREEVEC_TEST(sqadd_b_b_b, "sqadd b1, b2, b4", 1, 2, 4)
GEN_THREEVEC_TEST(uqadd_d_d_d, "uqadd d1, d2, d4", 1, 2, 4)
GEN_THREEVEC_TEST(uqadd_s_s_s, "uqadd s1, s2, s4", 1, 2, 4)
GEN_THREEVEC_TEST(uqadd_h_h_h, "uqadd h1, h2, h4", 1, 2, 4)
GEN_THREEVEC_TEST(uqadd_b_b_b, "uqadd b1, b2, b4", 1, 2, 4)
GEN_THREEVEC_TEST(sqsub_d_d_d, "sqsub d1, d2, d4", 1, 2, 4)
GEN_THREEVEC_TEST(sqsub_s_s_s, "sqsub s1, s2, s4", 1, 2, 4)
GEN_THREEVEC_TEST(sqsub_h_h_h, "sqsub h1, h2, h4", 1, 2, 4)
GEN_THREEVEC_TEST(sqsub_b_b_b, "sqsub b1, b2, b4", 1, 2, 4)
GEN_THREEVEC_TEST(uqsub_d_d_d, "uqsub d1, d2, d4", 1, 2, 4)
GEN_THREEVEC_TEST(uqsub_s_s_s, "uqsub s1, s2, s4", 1, 2, 4)
GEN_THREEVEC_TEST(uqsub_h_h_h, "uqsub h1, h2, h4", 1, 2, 4)
GEN_THREEVEC_TEST(uqsub_b_b_b, "uqsub b1, b2, b4", 1, 2, 4)
GEN_THREEVEC_TEST(sqadd_2d_2d_2d, "sqadd v1.2d, v2.2d, v4.2d", 1, 2, 4)
GEN_THREEVEC_TEST(sqadd_4s_4s_4s, "sqadd v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(sqadd_2s_2s_2s, "sqadd v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(sqadd_8h_8h_8h, "sqadd v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(sqadd_4h_4h_4h, "sqadd v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(sqadd_16b_16b_16b, "sqadd v1.16b, v2.16b, v4.16b", 1, 2, 4)
GEN_THREEVEC_TEST(sqadd_8b_8b_8b, "sqadd v1.8b, v2.8b, v4.8b", 1, 2, 4)
GEN_THREEVEC_TEST(uqadd_2d_2d_2d, "uqadd v1.2d, v2.2d, v4.2d", 1, 2, 4)
GEN_THREEVEC_TEST(uqadd_4s_4s_4s, "uqadd v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(uqadd_2s_2s_2s, "uqadd v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(uqadd_8h_8h_8h, "uqadd v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(uqadd_4h_4h_4h, "uqadd v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(uqadd_16b_16b_16b, "uqadd v1.16b, v2.16b, v4.16b", 1, 2, 4)
GEN_THREEVEC_TEST(uqadd_8b_8b_8b, "uqadd v1.8b, v2.8b, v4.8b", 1, 2, 4)
GEN_THREEVEC_TEST(sqsub_2d_2d_2d, "sqsub v1.2d, v2.2d, v4.2d", 1, 2, 4)
GEN_THREEVEC_TEST(sqsub_4s_4s_4s, "sqsub v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(sqsub_2s_2s_2s, "sqsub v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(sqsub_8h_8h_8h, "sqsub v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(sqsub_4h_4h_4h, "sqsub v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(sqsub_16b_16b_16b, "sqsub v1.16b, v2.16b, v4.16b", 1, 2, 4)
GEN_THREEVEC_TEST(sqsub_8b_8b_8b, "sqsub v1.8b, v2.8b, v4.8b", 1, 2, 4)
GEN_THREEVEC_TEST(uqsub_2d_2d_2d, "uqsub v1.2d, v2.2d, v4.2d", 1, 2, 4)
GEN_THREEVEC_TEST(uqsub_4s_4s_4s, "uqsub v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(uqsub_2s_2s_2s, "uqsub v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(uqsub_8h_8h_8h, "uqsub v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(uqsub_4h_4h_4h, "uqsub v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(uqsub_16b_16b_16b, "uqsub v1.16b, v2.16b, v4.16b", 1, 2, 4)
GEN_THREEVEC_TEST(uqsub_8b_8b_8b, "uqsub v1.8b, v2.8b, v4.8b", 1, 2, 4)
GEN_THREEVEC_TEST(sqdmlal_d_s_s0, "sqdmlal d31, s30, v29.s[0]", 31,30,29)
GEN_THREEVEC_TEST(sqdmlal_d_s_s3, "sqdmlal d31, s30, v29.s[3]", 31,30,29)
GEN_THREEVEC_TEST(sqdmlal_s_h_h1, "sqdmlal s31, h30, v13.h[1]", 31,30,13)
GEN_THREEVEC_TEST(sqdmlal_s_h_h5, "sqdmlal s31, h30, v13.h[5]", 31,30,13)
GEN_THREEVEC_TEST(sqdmlsl_d_s_s0, "sqdmlsl d31, s30, v29.s[0]", 31,30,29)
GEN_THREEVEC_TEST(sqdmlsl_d_s_s3, "sqdmlsl d31, s30, v29.s[3]", 31,30,29)
GEN_THREEVEC_TEST(sqdmlsl_s_h_h1, "sqdmlsl s31, h30, v13.h[1]", 31,30,13)
GEN_THREEVEC_TEST(sqdmlsl_s_h_h5, "sqdmlsl s31, h30, v13.h[5]", 31,30,13)
GEN_THREEVEC_TEST(sqdmull_d_s_s0, "sqdmull d31, s30, v29.s[0]", 31,30,29)
GEN_THREEVEC_TEST(sqdmull_d_s_s3, "sqdmull d31, s30, v29.s[3]", 31,30,29)
GEN_THREEVEC_TEST(sqdmull_s_h_h1, "sqdmull s31, h30, v13.h[1]", 31,30,13)
GEN_THREEVEC_TEST(sqdmull_s_h_h5, "sqdmull s31, h30, v13.h[5]", 31,30,13)
GEN_THREEVEC_TEST(sqdmlal_2d_2s_s0, "sqdmlal v29.2d, v20.2s, v3.s[0]",29,20,3)
GEN_THREEVEC_TEST(sqdmlal_2d_2s_s3, "sqdmlal v29.2d, v20.2s, v3.s[3]",29,20,3)
GEN_THREEVEC_TEST(sqdmlal2_2d_4s_s1,"sqdmlal2 v29.2d, v20.4s, v3.s[1]",29,20,3)
GEN_THREEVEC_TEST(sqdmlal2_2d_4s_s2,"sqdmlal2 v29.2d, v20.4s, v3.s[2]",29,20,3)
GEN_THREEVEC_TEST(sqdmlal_4s_4h_h0, "sqdmlal v29.4s, v20.4h, v3.h[0]",29,20,3)
GEN_THREEVEC_TEST(sqdmlal_4s_4h_h7, "sqdmlal v29.4s, v20.4h, v3.h[7]",29,20,3)
GEN_THREEVEC_TEST(sqdmlal2_4s_8h_h1,"sqdmlal2 v29.4s, v20.8h, v3.h[1]",29,20,3)
GEN_THREEVEC_TEST(sqdmlal2_4s_8h_h4,"sqdmlal2 v29.4s, v20.8h, v3.h[1]",29,20,3)
GEN_THREEVEC_TEST(sqdmlsl_2d_2s_s0, "sqdmlsl v29.2d, v20.2s, v3.s[0]",29,20,3)
GEN_THREEVEC_TEST(sqdmlsl_2d_2s_s3, "sqdmlsl v29.2d, v20.2s, v3.s[3]",29,20,3)
GEN_THREEVEC_TEST(sqdmlsl2_2d_4s_s1,"sqdmlsl2 v29.2d, v20.4s, v3.s[1]",29,20,3)
GEN_THREEVEC_TEST(sqdmlsl2_2d_4s_s2,"sqdmlsl2 v29.2d, v20.4s, v3.s[2]",29,20,3)
GEN_THREEVEC_TEST(sqdmlsl_4s_4h_h0, "sqdmlsl v29.4s, v20.4h, v3.h[0]",29,20,3)
GEN_THREEVEC_TEST(sqdmlsl_4s_4h_h7, "sqdmlsl v29.4s, v20.4h, v3.h[7]",29,20,3)
GEN_THREEVEC_TEST(sqdmlsl2_4s_8h_h1,"sqdmlsl2 v29.4s, v20.8h, v3.h[1]",29,20,3)
GEN_THREEVEC_TEST(sqdmlsl2_4s_8h_h4,"sqdmlsl2 v29.4s, v20.8h, v3.h[1]",29,20,3)
GEN_THREEVEC_TEST(sqdmull_2d_2s_s0, "sqdmull v29.2d, v20.2s, v3.s[0]",29,20,3)
GEN_THREEVEC_TEST(sqdmull_2d_2s_s3, "sqdmull v29.2d, v20.2s, v3.s[3]",29,20,3)
GEN_THREEVEC_TEST(sqdmull2_2d_4s_s1,"sqdmull2 v29.2d, v20.4s, v3.s[1]",29,20,3)
GEN_THREEVEC_TEST(sqdmull2_2d_4s_s2,"sqdmull2 v29.2d, v20.4s, v3.s[2]",29,20,3)
GEN_THREEVEC_TEST(sqdmull_4s_4h_h0, "sqdmull v29.4s, v20.4h, v3.h[0]",29,20,3)
GEN_THREEVEC_TEST(sqdmull_4s_4h_h7, "sqdmull v29.4s, v20.4h, v3.h[7]",29,20,3)
GEN_THREEVEC_TEST(sqdmull2_4s_8h_h1,"sqdmull2 v29.4s, v20.8h, v3.h[1]",29,20,3)
GEN_THREEVEC_TEST(sqdmull2_4s_8h_h4,"sqdmull2 v29.4s, v20.8h, v3.h[1]",29,20,3)
GEN_THREEVEC_TEST(sqdmlal_d_s_s, "sqdmlal d0, s8, s16", 0, 8, 16)
GEN_THREEVEC_TEST(sqdmlal_s_h_h, "sqdmlal s0, h8, h16", 0, 8, 16)
GEN_THREEVEC_TEST(sqdmlsl_d_s_s, "sqdmlsl d0, s8, s16", 0, 8, 16)
GEN_THREEVEC_TEST(sqdmlsl_s_h_h, "sqdmlsl s0, h8, h16", 0, 8, 16)
GEN_THREEVEC_TEST(sqdmull_d_s_s, "sqdmull d0, s8, s16", 0, 8, 16)
GEN_THREEVEC_TEST(sqdmull_s_h_h, "sqdmull s0, h8, h16", 0, 8, 16)
GEN_THREEVEC_TEST(sqdmlal_2d_2s_2s, "sqdmlal v2.2d, v11.2s, v29.2s", 2,11,29)
GEN_THREEVEC_TEST(sqdmlal2_2d_4s_4s, "sqdmlal2 v2.2d, v11.4s, v29.4s", 2,11,29)
GEN_THREEVEC_TEST(sqdmlal_4s_4h_4h, "sqdmlal v2.4s, v11.4h, v29.4h", 2,11,29)
GEN_THREEVEC_TEST(sqdmlal2_4s_8h_8h, "sqdmlal2 v2.4s, v11.8h, v29.8h", 2,11,29)
GEN_THREEVEC_TEST(sqdmlsl_2d_2s_2s, "sqdmlsl v2.2d, v11.2s, v29.2s", 2,11,29)
GEN_THREEVEC_TEST(sqdmlsl2_2d_4s_4s, "sqdmlsl2 v2.2d, v11.4s, v29.4s", 2,11,29)
GEN_THREEVEC_TEST(sqdmlsl_4s_4h_4h, "sqdmlsl v2.4s, v11.4h, v29.4h", 2,11,29)
GEN_THREEVEC_TEST(sqdmlsl2_4s_8h_8h, "sqdmlsl2 v2.4s, v11.8h, v29.8h", 2,11,29)
GEN_THREEVEC_TEST(sqdmull_2d_2s_2s, "sqdmull v2.2d, v11.2s, v29.2s", 2,11,29)
GEN_THREEVEC_TEST(sqdmull2_2d_4s_4s, "sqdmull2 v2.2d, v11.4s, v29.4s", 2,11,29)
GEN_THREEVEC_TEST(sqdmull_4s_4h_4h, "sqdmull v2.4s, v11.4h, v29.4h", 2,11,29)
GEN_THREEVEC_TEST(sqdmull2_4s_8h_8h, "sqdmull2 v2.4s, v11.8h, v29.8h", 2,11,29)
GEN_THREEVEC_TEST(sqdmulh_s_s_s1, "sqdmulh s0, s1, v2.s[1]", 0,1,2)
GEN_THREEVEC_TEST(sqdmulh_s_s_s3, "sqdmulh s0, s1, v2.s[3]", 0,1,2)
GEN_THREEVEC_TEST(sqdmulh_h_h_h2, "sqdmulh h0, h1, v2.h[2]", 0,1,2)
GEN_THREEVEC_TEST(sqdmulh_h_h_h7, "sqdmulh h0, h1, v2.h[7]", 0,1,2)
GEN_THREEVEC_TEST(sqrdmulh_s_s_s1, "sqrdmulh s0, s1, v2.s[1]", 0,1,2)
GEN_THREEVEC_TEST(sqrdmulh_s_s_s3, "sqrdmulh s0, s1, v2.s[3]", 0,1,2)
GEN_THREEVEC_TEST(sqrdmulh_h_h_h2, "sqrdmulh h0, h1, v2.h[2]", 0,1,2)
GEN_THREEVEC_TEST(sqrdmulh_h_h_h7, "sqrdmulh h0, h1, v2.h[7]", 0,1,2)
GEN_THREEVEC_TEST(sqdmulh_4s_4s_s1, "sqdmulh v0.4s, v1.4s, v2.s[1]", 0,1,2)
GEN_THREEVEC_TEST(sqdmulh_4s_4s_s3, "sqdmulh v0.4s, v1.4s, v2.s[3]", 0,1,2)
GEN_THREEVEC_TEST(sqdmulh_2s_2s_s1, "sqdmulh v0.2s, v1.2s, v2.s[1]", 0,1,2)
GEN_THREEVEC_TEST(sqdmulh_2s_2s_s3, "sqdmulh v0.2s, v1.2s, v2.s[3]", 0,1,2)
GEN_THREEVEC_TEST(sqdmulh_8h_8h_h2, "sqdmulh v0.8h, v1.8h, v2.h[2]", 0,1,2)
GEN_THREEVEC_TEST(sqdmulh_8h_8h_h7, "sqdmulh v0.8h, v1.8h, v2.h[7]", 0,1,2)
GEN_THREEVEC_TEST(sqdmulh_4h_4h_h2, "sqdmulh v0.4h, v1.4h, v2.h[2]", 0,1,2)
GEN_THREEVEC_TEST(sqdmulh_4h_4h_h7, "sqdmulh v0.4h, v1.4h, v2.h[7]", 0,1,2)
GEN_THREEVEC_TEST(sqrdmulh_4s_4s_s1, "sqrdmulh v0.4s, v1.4s, v2.s[1]", 0,1,2)
GEN_THREEVEC_TEST(sqrdmulh_4s_4s_s3, "sqrdmulh v0.4s, v1.4s, v2.s[3]", 0,1,2)
GEN_THREEVEC_TEST(sqrdmulh_2s_2s_s1, "sqrdmulh v0.2s, v1.2s, v2.s[1]", 0,1,2)
GEN_THREEVEC_TEST(sqrdmulh_2s_2s_s3, "sqrdmulh v0.2s, v1.2s, v2.s[3]", 0,1,2)
GEN_THREEVEC_TEST(sqrdmulh_8h_8h_h2, "sqrdmulh v0.8h, v1.8h, v2.h[2]", 0,1,2)
GEN_THREEVEC_TEST(sqrdmulh_8h_8h_h7, "sqrdmulh v0.8h, v1.8h, v2.h[7]", 0,1,2)
GEN_THREEVEC_TEST(sqrdmulh_4h_4h_h2, "sqrdmulh v0.4h, v1.4h, v2.h[2]", 0,1,2)
GEN_THREEVEC_TEST(sqrdmulh_4h_4h_h7, "sqrdmulh v0.4h, v1.4h, v2.h[7]", 0,1,2)
GEN_THREEVEC_TEST(sqdmulh_s_s_s, "sqdmulh s1, s2, s4", 1, 2, 4)
GEN_THREEVEC_TEST(sqdmulh_h_h_h, "sqdmulh h1, h2, h4", 1, 2, 4)
GEN_THREEVEC_TEST(sqrdmulh_s_s_s, "sqrdmulh s1, s2, s4", 1, 2, 4)
GEN_THREEVEC_TEST(sqrdmulh_h_h_h, "sqrdmulh h1, h2, h4", 1, 2, 4)
GEN_THREEVEC_TEST(sqdmulh_4s_4s_4s, "sqdmulh v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(sqdmulh_2s_2s_2s, "sqdmulh v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(sqdmulh_8h_8h_8h, "sqdmulh v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(sqdmulh_4h_4h_4h, "sqdmulh v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(sqrdmulh_4s_4s_4s, "sqrdmulh v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(sqrdmulh_2s_2s_2s, "sqrdmulh v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(sqrdmulh_8h_8h_8h, "sqrdmulh v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(sqrdmulh_4h_4h_4h, "sqrdmulh v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(sqshl_d_d_d, "sqshl d1, d2, d4", 1, 2, 4)
GEN_THREEVEC_TEST(sqshl_s_s_s, "sqshl s1, s2, s4", 1, 2, 4)
GEN_THREEVEC_TEST(sqshl_h_h_h, "sqshl h1, h2, h4", 1, 2, 4)
GEN_THREEVEC_TEST(sqshl_b_b_b, "sqshl b1, b2, b4", 1, 2, 4)
GEN_THREEVEC_TEST(uqshl_d_d_d, "uqshl d1, d2, d4", 1, 2, 4)
GEN_THREEVEC_TEST(uqshl_s_s_s, "uqshl s1, s2, s4", 1, 2, 4)
GEN_THREEVEC_TEST(uqshl_h_h_h, "uqshl h1, h2, h4", 1, 2, 4)
GEN_THREEVEC_TEST(uqshl_b_b_b, "uqshl b1, b2, b4", 1, 2, 4)
GEN_THREEVEC_TEST(sqrshl_d_d_d, "sqrshl d1, d2, d4", 1, 2, 4)
GEN_THREEVEC_TEST(sqrshl_s_s_s, "sqrshl s1, s2, s4", 1, 2, 4)
GEN_THREEVEC_TEST(sqrshl_h_h_h, "sqrshl h1, h2, h4", 1, 2, 4)
GEN_THREEVEC_TEST(sqrshl_b_b_b, "sqrshl b1, b2, b4", 1, 2, 4)
GEN_THREEVEC_TEST(uqrshl_d_d_d, "uqrshl d1, d2, d4", 1, 2, 4)
GEN_THREEVEC_TEST(uqrshl_s_s_s, "uqrshl s1, s2, s4", 1, 2, 4)
GEN_THREEVEC_TEST(uqrshl_h_h_h, "uqrshl h1, h2, h4", 1, 2, 4)
GEN_THREEVEC_TEST(uqrshl_b_b_b, "uqrshl b1, b2, b4", 1, 2, 4)
GEN_THREEVEC_TEST(sqshl_2d_2d_2d, "sqshl v1.2d, v2.2d, v4.2d", 1, 2, 4)
GEN_THREEVEC_TEST(sqshl_4s_4s_4s, "sqshl v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(sqshl_2s_2s_2s, "sqshl v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(sqshl_8h_8h_8h, "sqshl v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(sqshl_4h_4h_4h, "sqshl v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(sqshl_16b_16b_16b, "sqshl v1.16b, v2.16b, v4.16b", 1, 2, 4)
GEN_THREEVEC_TEST(sqshl_8b_8b_8b, "sqshl v1.8b, v2.8b, v4.8b", 1, 2, 4)
GEN_THREEVEC_TEST(uqshl_2d_2d_2d, "uqshl v1.2d, v2.2d, v4.2d", 1, 2, 4)
GEN_THREEVEC_TEST(uqshl_4s_4s_4s, "uqshl v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(uqshl_2s_2s_2s, "uqshl v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(uqshl_8h_8h_8h, "uqshl v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(uqshl_4h_4h_4h, "uqshl v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(uqshl_16b_16b_16b, "uqshl v1.16b, v2.16b, v4.16b", 1, 2, 4)
GEN_THREEVEC_TEST(uqshl_8b_8b_8b, "uqshl v1.8b, v2.8b, v4.8b", 1, 2, 4)
GEN_THREEVEC_TEST(sqrshl_2d_2d_2d, "sqrshl v1.2d, v2.2d, v4.2d", 1, 2, 4)
GEN_THREEVEC_TEST(sqrshl_4s_4s_4s, "sqrshl v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(sqrshl_2s_2s_2s, "sqrshl v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(sqrshl_8h_8h_8h, "sqrshl v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(sqrshl_4h_4h_4h, "sqrshl v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(sqrshl_16b_16b_16b, "sqrshl v1.16b, v2.16b, v4.16b", 1, 2, 4)
GEN_THREEVEC_TEST(sqrshl_8b_8b_8b, "sqrshl v1.8b, v2.8b, v4.8b", 1, 2, 4)
GEN_THREEVEC_TEST(uqrshl_2d_2d_2d, "uqrshl v1.2d, v2.2d, v4.2d", 1, 2, 4)
GEN_THREEVEC_TEST(uqrshl_4s_4s_4s, "uqrshl v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(uqrshl_2s_2s_2s, "uqrshl v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(uqrshl_8h_8h_8h, "uqrshl v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(uqrshl_4h_4h_4h, "uqrshl v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(uqrshl_16b_16b_16b, "uqrshl v1.16b, v2.16b, v4.16b", 1, 2, 4)
GEN_THREEVEC_TEST(uqrshl_8b_8b_8b, "uqrshl v1.8b, v2.8b, v4.8b", 1, 2, 4)
GEN_TWOVEC_TEST(sqrshrn_s_d_1, "sqrshrn s2, d5, #1", 2, 5)
GEN_TWOVEC_TEST(sqrshrn_s_d_17, "sqrshrn s2, d5, #17", 2, 5)
GEN_TWOVEC_TEST(sqrshrn_s_d_32, "sqrshrn s2, d5, #32", 2, 5)
GEN_TWOVEC_TEST(sqrshrn_h_s_1, "sqrshrn h2, s5, #1", 2, 5)
GEN_TWOVEC_TEST(sqrshrn_h_s_9, "sqrshrn h2, s5, #9", 2, 5)
GEN_TWOVEC_TEST(sqrshrn_h_s_16, "sqrshrn h2, s5, #16", 2, 5)
GEN_TWOVEC_TEST(sqrshrn_b_h_1, "sqrshrn b2, h5, #1", 2, 5)
GEN_TWOVEC_TEST(sqrshrn_b_h_4, "sqrshrn b2, h5, #4", 2, 5)
GEN_TWOVEC_TEST(sqrshrn_b_h_8, "sqrshrn b2, h5, #8", 2, 5)
GEN_TWOVEC_TEST(uqrshrn_s_d_1, "uqrshrn s2, d5, #1", 2, 5)
GEN_TWOVEC_TEST(uqrshrn_s_d_17, "uqrshrn s2, d5, #17", 2, 5)
GEN_TWOVEC_TEST(uqrshrn_s_d_32, "uqrshrn s2, d5, #32", 2, 5)
GEN_TWOVEC_TEST(uqrshrn_h_s_1, "uqrshrn h2, s5, #1", 2, 5)
GEN_TWOVEC_TEST(uqrshrn_h_s_9, "uqrshrn h2, s5, #9", 2, 5)
GEN_TWOVEC_TEST(uqrshrn_h_s_16, "uqrshrn h2, s5, #16", 2, 5)
GEN_TWOVEC_TEST(uqrshrn_b_h_1, "uqrshrn b2, h5, #1", 2, 5)
GEN_TWOVEC_TEST(uqrshrn_b_h_4, "uqrshrn b2, h5, #4", 2, 5)
GEN_TWOVEC_TEST(uqrshrn_b_h_8, "uqrshrn b2, h5, #8", 2, 5)
GEN_TWOVEC_TEST(sqshrn_s_d_1, "sqshrn s2, d5, #1", 2, 5)
GEN_TWOVEC_TEST(sqshrn_s_d_17, "sqshrn s2, d5, #17", 2, 5)
GEN_TWOVEC_TEST(sqshrn_s_d_32, "sqshrn s2, d5, #32", 2, 5)
GEN_TWOVEC_TEST(sqshrn_h_s_1, "sqshrn h2, s5, #1", 2, 5)
GEN_TWOVEC_TEST(sqshrn_h_s_9, "sqshrn h2, s5, #9", 2, 5)
GEN_TWOVEC_TEST(sqshrn_h_s_16, "sqshrn h2, s5, #16", 2, 5)
GEN_TWOVEC_TEST(sqshrn_b_h_1, "sqshrn b2, h5, #1", 2, 5)
GEN_TWOVEC_TEST(sqshrn_b_h_4, "sqshrn b2, h5, #4", 2, 5)
GEN_TWOVEC_TEST(sqshrn_b_h_8, "sqshrn b2, h5, #8", 2, 5)
GEN_TWOVEC_TEST(uqshrn_s_d_1, "uqshrn s2, d5, #1", 2, 5)
GEN_TWOVEC_TEST(uqshrn_s_d_17, "uqshrn s2, d5, #17", 2, 5)
GEN_TWOVEC_TEST(uqshrn_s_d_32, "uqshrn s2, d5, #32", 2, 5)
GEN_TWOVEC_TEST(uqshrn_h_s_1, "uqshrn h2, s5, #1", 2, 5)
GEN_TWOVEC_TEST(uqshrn_h_s_9, "uqshrn h2, s5, #9", 2, 5)
GEN_TWOVEC_TEST(uqshrn_h_s_16, "uqshrn h2, s5, #16", 2, 5)
GEN_TWOVEC_TEST(uqshrn_b_h_1, "uqshrn b2, h5, #1", 2, 5)
GEN_TWOVEC_TEST(uqshrn_b_h_4, "uqshrn b2, h5, #4", 2, 5)
GEN_TWOVEC_TEST(uqshrn_b_h_8, "uqshrn b2, h5, #8", 2, 5)
GEN_TWOVEC_TEST(sqrshrun_s_d_1, "sqrshrun s2, d5, #1", 2, 5)
GEN_TWOVEC_TEST(sqrshrun_s_d_17, "sqrshrun s2, d5, #17", 2, 5)
GEN_TWOVEC_TEST(sqrshrun_s_d_32, "sqrshrun s2, d5, #32", 2, 5)
GEN_TWOVEC_TEST(sqrshrun_h_s_1, "sqrshrun h2, s5, #1", 2, 5)
GEN_TWOVEC_TEST(sqrshrun_h_s_9, "sqrshrun h2, s5, #9", 2, 5)
GEN_TWOVEC_TEST(sqrshrun_h_s_16, "sqrshrun h2, s5, #16", 2, 5)
GEN_TWOVEC_TEST(sqrshrun_b_h_1, "sqrshrun b2, h5, #1", 2, 5)
GEN_TWOVEC_TEST(sqrshrun_b_h_4, "sqrshrun b2, h5, #4", 2, 5)
GEN_TWOVEC_TEST(sqrshrun_b_h_8, "sqrshrun b2, h5, #8", 2, 5)
GEN_TWOVEC_TEST(sqshrun_s_d_1, "sqshrun s2, d5, #1", 2, 5)
GEN_TWOVEC_TEST(sqshrun_s_d_17, "sqshrun s2, d5, #17", 2, 5)
GEN_TWOVEC_TEST(sqshrun_s_d_32, "sqshrun s2, d5, #32", 2, 5)
GEN_TWOVEC_TEST(sqshrun_h_s_1, "sqshrun h2, s5, #1", 2, 5)
GEN_TWOVEC_TEST(sqshrun_h_s_9, "sqshrun h2, s5, #9", 2, 5)
GEN_TWOVEC_TEST(sqshrun_h_s_16, "sqshrun h2, s5, #16", 2, 5)
GEN_TWOVEC_TEST(sqshrun_b_h_1, "sqshrun b2, h5, #1", 2, 5)
GEN_TWOVEC_TEST(sqshrun_b_h_4, "sqshrun b2, h5, #4", 2, 5)
GEN_TWOVEC_TEST(sqshrun_b_h_8, "sqshrun b2, h5, #8", 2, 5)
GEN_TWOVEC_TEST(sqrshrn_2s_2d_1, "sqrshrn v4.2s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(sqrshrn_2s_2d_17, "sqrshrn v4.2s, v29.2d, #17", 4, 29)
GEN_TWOVEC_TEST(sqrshrn_2s_2d_32, "sqrshrn v4.2s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(sqrshrn2_4s_2d_1, "sqrshrn2 v4.4s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(sqrshrn2_4s_2d_17, "sqrshrn2 v4.4s, v29.2d, #17", 4, 29)
GEN_TWOVEC_TEST(sqrshrn2_4s_2d_32, "sqrshrn2 v4.4s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(sqrshrn_4h_4s_1, "sqrshrn v4.4h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(sqrshrn_4h_4s_9, "sqrshrn v4.4h, v29.4s, #9", 4, 29)
GEN_TWOVEC_TEST(sqrshrn_4h_4s_16, "sqrshrn v4.4h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(sqrshrn2_8h_4s_1, "sqrshrn2 v4.8h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(sqrshrn2_8h_4s_9, "sqrshrn2 v4.8h, v29.4s, #9", 4, 29)
GEN_TWOVEC_TEST(sqrshrn2_8h_4s_16, "sqrshrn2 v4.8h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(sqrshrn_8b_8h_1, "sqrshrn v4.8b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(sqrshrn_8b_8h_4, "sqrshrn v4.8b, v29.8h, #4", 4, 29)
GEN_TWOVEC_TEST(sqrshrn_8b_8h_8, "sqrshrn v4.8b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(sqrshrn2_16b_8h_1, "sqrshrn2 v4.16b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(sqrshrn2_16b_8h_4, "sqrshrn2 v4.16b, v29.8h, #4", 4, 29)
GEN_TWOVEC_TEST(sqrshrn2_16b_8h_8, "sqrshrn2 v4.16b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(uqrshrn_2s_2d_1, "uqrshrn v4.2s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(uqrshrn_2s_2d_17, "uqrshrn v4.2s, v29.2d, #17", 4, 29)
GEN_TWOVEC_TEST(uqrshrn_2s_2d_32, "uqrshrn v4.2s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(uqrshrn2_4s_2d_1, "uqrshrn2 v4.4s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(uqrshrn2_4s_2d_17, "uqrshrn2 v4.4s, v29.2d, #17", 4, 29)
GEN_TWOVEC_TEST(uqrshrn2_4s_2d_32, "uqrshrn2 v4.4s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(uqrshrn_4h_4s_1, "uqrshrn v4.4h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(uqrshrn_4h_4s_9, "uqrshrn v4.4h, v29.4s, #9", 4, 29)
GEN_TWOVEC_TEST(uqrshrn_4h_4s_16, "uqrshrn v4.4h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(uqrshrn2_8h_4s_1, "uqrshrn2 v4.8h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(uqrshrn2_8h_4s_9, "uqrshrn2 v4.8h, v29.4s, #9", 4, 29)
GEN_TWOVEC_TEST(uqrshrn2_8h_4s_16, "uqrshrn2 v4.8h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(uqrshrn_8b_8h_1, "uqrshrn v4.8b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(uqrshrn_8b_8h_4, "uqrshrn v4.8b, v29.8h, #4", 4, 29)
GEN_TWOVEC_TEST(uqrshrn_8b_8h_8, "uqrshrn v4.8b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(uqrshrn2_16b_8h_1, "uqrshrn2 v4.16b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(uqrshrn2_16b_8h_4, "uqrshrn2 v4.16b, v29.8h, #4", 4, 29)
GEN_TWOVEC_TEST(uqrshrn2_16b_8h_8, "uqrshrn2 v4.16b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(sqshrn_2s_2d_1, "sqshrn v4.2s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(sqshrn_2s_2d_17, "sqshrn v4.2s, v29.2d, #17", 4, 29)
GEN_TWOVEC_TEST(sqshrn_2s_2d_32, "sqshrn v4.2s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(sqshrn2_4s_2d_1, "sqshrn2 v4.4s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(sqshrn2_4s_2d_17, "sqshrn2 v4.4s, v29.2d, #17", 4, 29)
GEN_TWOVEC_TEST(sqshrn2_4s_2d_32, "sqshrn2 v4.4s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(sqshrn_4h_4s_1, "sqshrn v4.4h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(sqshrn_4h_4s_9, "sqshrn v4.4h, v29.4s, #9", 4, 29)
GEN_TWOVEC_TEST(sqshrn_4h_4s_16, "sqshrn v4.4h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(sqshrn2_8h_4s_1, "sqshrn2 v4.8h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(sqshrn2_8h_4s_9, "sqshrn2 v4.8h, v29.4s, #9", 4, 29)
GEN_TWOVEC_TEST(sqshrn2_8h_4s_16, "sqshrn2 v4.8h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(sqshrn_8b_8h_1, "sqshrn v4.8b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(sqshrn_8b_8h_4, "sqshrn v4.8b, v29.8h, #4", 4, 29)
GEN_TWOVEC_TEST(sqshrn_8b_8h_8, "sqshrn v4.8b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(sqshrn2_16b_8h_1, "sqshrn2 v4.16b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(sqshrn2_16b_8h_4, "sqshrn2 v4.16b, v29.8h, #4", 4, 29)
GEN_TWOVEC_TEST(sqshrn2_16b_8h_8, "sqshrn2 v4.16b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(uqshrn_2s_2d_1, "uqshrn v4.2s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(uqshrn_2s_2d_17, "uqshrn v4.2s, v29.2d, #17", 4, 29)
GEN_TWOVEC_TEST(uqshrn_2s_2d_32, "uqshrn v4.2s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(uqshrn2_4s_2d_1, "uqshrn2 v4.4s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(uqshrn2_4s_2d_17, "uqshrn2 v4.4s, v29.2d, #17", 4, 29)
GEN_TWOVEC_TEST(uqshrn2_4s_2d_32, "uqshrn2 v4.4s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(uqshrn_4h_4s_1, "uqshrn v4.4h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(uqshrn_4h_4s_9, "uqshrn v4.4h, v29.4s, #9", 4, 29)
GEN_TWOVEC_TEST(uqshrn_4h_4s_16, "uqshrn v4.4h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(uqshrn2_8h_4s_1, "uqshrn2 v4.8h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(uqshrn2_8h_4s_9, "uqshrn2 v4.8h, v29.4s, #9", 4, 29)
GEN_TWOVEC_TEST(uqshrn2_8h_4s_16, "uqshrn2 v4.8h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(uqshrn_8b_8h_1, "uqshrn v4.8b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(uqshrn_8b_8h_4, "uqshrn v4.8b, v29.8h, #4", 4, 29)
GEN_TWOVEC_TEST(uqshrn_8b_8h_8, "uqshrn v4.8b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(uqshrn2_16b_8h_1, "uqshrn2 v4.16b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(uqshrn2_16b_8h_4, "uqshrn2 v4.16b, v29.8h, #4", 4, 29)
GEN_TWOVEC_TEST(uqshrn2_16b_8h_8, "uqshrn2 v4.16b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(sqrshrun_2s_2d_1, "sqrshrun v4.2s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(sqrshrun_2s_2d_17, "sqrshrun v4.2s, v29.2d, #17", 4, 29)
GEN_TWOVEC_TEST(sqrshrun_2s_2d_32, "sqrshrun v4.2s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(sqrshrun2_4s_2d_1, "sqrshrun2 v4.4s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(sqrshrun2_4s_2d_17, "sqrshrun2 v4.4s, v29.2d, #17", 4, 29)
GEN_TWOVEC_TEST(sqrshrun2_4s_2d_32, "sqrshrun2 v4.4s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(sqrshrun_4h_4s_1, "sqrshrun v4.4h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(sqrshrun_4h_4s_9, "sqrshrun v4.4h, v29.4s, #9", 4, 29)
GEN_TWOVEC_TEST(sqrshrun_4h_4s_16, "sqrshrun v4.4h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(sqrshrun2_8h_4s_1, "sqrshrun2 v4.8h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(sqrshrun2_8h_4s_9, "sqrshrun2 v4.8h, v29.4s, #9", 4, 29)
GEN_TWOVEC_TEST(sqrshrun2_8h_4s_16, "sqrshrun2 v4.8h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(sqrshrun_8b_8h_1, "sqrshrun v4.8b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(sqrshrun_8b_8h_4, "sqrshrun v4.8b, v29.8h, #4", 4, 29)
GEN_TWOVEC_TEST(sqrshrun_8b_8h_8, "sqrshrun v4.8b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(sqrshrun2_16b_8h_1, "sqrshrun2 v4.16b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(sqrshrun2_16b_8h_4, "sqrshrun2 v4.16b, v29.8h, #4", 4, 29)
GEN_TWOVEC_TEST(sqrshrun2_16b_8h_8, "sqrshrun2 v4.16b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(sqshrun_2s_2d_1, "sqshrun v4.2s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(sqshrun_2s_2d_17, "sqshrun v4.2s, v29.2d, #17", 4, 29)
GEN_TWOVEC_TEST(sqshrun_2s_2d_32, "sqshrun v4.2s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(sqshrun2_4s_2d_1, "sqshrun2 v4.4s, v29.2d, #1", 4, 29)
GEN_TWOVEC_TEST(sqshrun2_4s_2d_17, "sqshrun2 v4.4s, v29.2d, #17", 4, 29)
GEN_TWOVEC_TEST(sqshrun2_4s_2d_32, "sqshrun2 v4.4s, v29.2d, #32", 4, 29)
GEN_TWOVEC_TEST(sqshrun_4h_4s_1, "sqshrun v4.4h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(sqshrun_4h_4s_9, "sqshrun v4.4h, v29.4s, #9", 4, 29)
GEN_TWOVEC_TEST(sqshrun_4h_4s_16, "sqshrun v4.4h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(sqshrun2_8h_4s_1, "sqshrun2 v4.8h, v29.4s, #1", 4, 29)
GEN_TWOVEC_TEST(sqshrun2_8h_4s_9, "sqshrun2 v4.8h, v29.4s, #9", 4, 29)
GEN_TWOVEC_TEST(sqshrun2_8h_4s_16, "sqshrun2 v4.8h, v29.4s, #16", 4, 29)
GEN_TWOVEC_TEST(sqshrun_8b_8h_1, "sqshrun v4.8b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(sqshrun_8b_8h_4, "sqshrun v4.8b, v29.8h, #4", 4, 29)
GEN_TWOVEC_TEST(sqshrun_8b_8h_8, "sqshrun v4.8b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(sqshrun2_16b_8h_1, "sqshrun2 v4.16b, v29.8h, #1", 4, 29)
GEN_TWOVEC_TEST(sqshrun2_16b_8h_4, "sqshrun2 v4.16b, v29.8h, #4", 4, 29)
GEN_TWOVEC_TEST(sqshrun2_16b_8h_8, "sqshrun2 v4.16b, v29.8h, #8", 4, 29)
GEN_TWOVEC_TEST(sqshl_d_d_0, "sqshl d5, d28, #0", 5, 28)
GEN_TWOVEC_TEST(sqshl_d_d_32, "sqshl d5, d28, #32", 5, 28)
GEN_TWOVEC_TEST(sqshl_d_d_63, "sqshl d5, d28, #63", 5, 28)
GEN_TWOVEC_TEST(sqshl_s_s_0, "sqshl s5, s28, #0", 5, 28)
GEN_TWOVEC_TEST(sqshl_s_s_16, "sqshl s5, s28, #16", 5, 28)
GEN_TWOVEC_TEST(sqshl_s_s_31, "sqshl s5, s28, #31", 5, 28)
GEN_TWOVEC_TEST(sqshl_h_h_0, "sqshl h5, h28, #0", 5, 28)
GEN_TWOVEC_TEST(sqshl_h_h_8, "sqshl h5, h28, #8", 5, 28)
GEN_TWOVEC_TEST(sqshl_h_h_15, "sqshl h5, h28, #15", 5, 28)
GEN_TWOVEC_TEST(sqshl_b_b_0, "sqshl b5, b28, #0", 5, 28)
GEN_TWOVEC_TEST(sqshl_b_b_1, "sqshl b5, b28, #1", 5, 28)
GEN_TWOVEC_TEST(sqshl_b_b_4, "sqshl b5, b28, #4", 5, 28)
GEN_TWOVEC_TEST(sqshl_b_b_6, "sqshl b5, b28, #6", 5, 28)
GEN_TWOVEC_TEST(sqshl_b_b_7, "sqshl b5, b28, #7", 5, 28)
GEN_TWOVEC_TEST(uqshl_d_d_0, "uqshl d5, d28, #0", 5, 28)
GEN_TWOVEC_TEST(uqshl_d_d_32, "uqshl d5, d28, #32", 5, 28)
GEN_TWOVEC_TEST(uqshl_d_d_63, "uqshl d5, d28, #63", 5, 28)
GEN_TWOVEC_TEST(uqshl_s_s_0, "uqshl s5, s28, #0", 5, 28)
GEN_TWOVEC_TEST(uqshl_s_s_16, "uqshl s5, s28, #16", 5, 28)
GEN_TWOVEC_TEST(uqshl_s_s_31, "uqshl s5, s28, #31", 5, 28)
GEN_TWOVEC_TEST(uqshl_h_h_0, "uqshl h5, h28, #0", 5, 28)
GEN_TWOVEC_TEST(uqshl_h_h_8, "uqshl h5, h28, #8", 5, 28)
GEN_TWOVEC_TEST(uqshl_h_h_15, "uqshl h5, h28, #15", 5, 28)
GEN_TWOVEC_TEST(uqshl_b_b_0, "uqshl b5, b28, #0", 5, 28)
GEN_TWOVEC_TEST(uqshl_b_b_1, "uqshl b5, b28, #1", 5, 28)
GEN_TWOVEC_TEST(uqshl_b_b_4, "uqshl b5, b28, #4", 5, 28)
GEN_TWOVEC_TEST(uqshl_b_b_6, "uqshl b5, b28, #6", 5, 28)
GEN_TWOVEC_TEST(uqshl_b_b_7, "uqshl b5, b28, #7", 5, 28)
GEN_TWOVEC_TEST(sqshlu_d_d_0, "sqshlu d5, d28, #0", 5, 28)
GEN_TWOVEC_TEST(sqshlu_d_d_32, "sqshlu d5, d28, #32", 5, 28)
GEN_TWOVEC_TEST(sqshlu_d_d_63, "sqshlu d5, d28, #63", 5, 28)
GEN_TWOVEC_TEST(sqshlu_s_s_0, "sqshlu s5, s28, #0", 5, 28)
GEN_TWOVEC_TEST(sqshlu_s_s_16, "sqshlu s5, s28, #16", 5, 28)
GEN_TWOVEC_TEST(sqshlu_s_s_31, "sqshlu s5, s28, #31", 5, 28)
GEN_TWOVEC_TEST(sqshlu_h_h_0, "sqshlu h5, h28, #0", 5, 28)
GEN_TWOVEC_TEST(sqshlu_h_h_8, "sqshlu h5, h28, #8", 5, 28)
GEN_TWOVEC_TEST(sqshlu_h_h_15, "sqshlu h5, h28, #15", 5, 28)
GEN_TWOVEC_TEST(sqshlu_b_b_0, "sqshlu b5, b28, #0", 5, 28)
GEN_TWOVEC_TEST(sqshlu_b_b_1, "sqshlu b5, b28, #1", 5, 28)
GEN_TWOVEC_TEST(sqshlu_b_b_2, "sqshlu b5, b28, #2", 5, 28)
GEN_TWOVEC_TEST(sqshlu_b_b_3, "sqshlu b5, b28, #3", 5, 28)
GEN_TWOVEC_TEST(sqshlu_b_b_4, "sqshlu b5, b28, #4", 5, 28)
GEN_TWOVEC_TEST(sqshlu_b_b_5, "sqshlu b5, b28, #5", 5, 28)
GEN_TWOVEC_TEST(sqshlu_b_b_6, "sqshlu b5, b28, #6", 5, 28)
GEN_TWOVEC_TEST(sqshlu_b_b_7, "sqshlu b5, b28, #7", 5, 28)
GEN_TWOVEC_TEST(sqshl_2d_2d_0, "sqshl v6.2d, v27.2d, #0", 6, 27)
GEN_TWOVEC_TEST(sqshl_2d_2d_32, "sqshl v6.2d, v27.2d, #32", 6, 27)
GEN_TWOVEC_TEST(sqshl_2d_2d_63, "sqshl v6.2d, v27.2d, #63", 6, 27)
GEN_TWOVEC_TEST(sqshl_4s_4s_0, "sqshl v6.4s, v27.4s, #0", 6, 27)
GEN_TWOVEC_TEST(sqshl_4s_4s_16, "sqshl v6.4s, v27.4s, #16", 6, 27)
GEN_TWOVEC_TEST(sqshl_4s_4s_31, "sqshl v6.4s, v27.4s, #31", 6, 27)
GEN_TWOVEC_TEST(sqshl_2s_2s_0, "sqshl v6.2s, v27.2s, #0", 6, 27)
GEN_TWOVEC_TEST(sqshl_2s_2s_16, "sqshl v6.2s, v27.2s, #16", 6, 27)
GEN_TWOVEC_TEST(sqshl_2s_2s_31, "sqshl v6.2s, v27.2s, #31", 6, 27)
GEN_TWOVEC_TEST(sqshl_8h_8h_0, "sqshl v6.8h, v27.8h, #0", 6, 27)
GEN_TWOVEC_TEST(sqshl_8h_8h_8, "sqshl v6.8h, v27.8h, #8", 6, 27)
GEN_TWOVEC_TEST(sqshl_8h_8h_15, "sqshl v6.8h, v27.8h, #15", 6, 27)
GEN_TWOVEC_TEST(sqshl_4h_4h_0, "sqshl v6.4h, v27.4h, #0", 6, 27)
GEN_TWOVEC_TEST(sqshl_4h_4h_8, "sqshl v6.4h, v27.4h, #8", 6, 27)
GEN_TWOVEC_TEST(sqshl_4h_4h_15, "sqshl v6.4h, v27.4h, #15", 6, 27)
GEN_TWOVEC_TEST(sqshl_16b_16b_0, "sqshl v6.16b, v27.16b, #0", 6, 27)
GEN_TWOVEC_TEST(sqshl_16b_16b_3, "sqshl v6.16b, v27.16b, #3", 6, 27)
GEN_TWOVEC_TEST(sqshl_16b_16b_7, "sqshl v6.16b, v27.16b, #7", 6, 27)
GEN_TWOVEC_TEST(sqshl_8b_8b_0, "sqshl v6.8b, v27.8b, #0", 6, 27)
GEN_TWOVEC_TEST(sqshl_8b_8b_3, "sqshl v6.8b, v27.8b, #3", 6, 27)
GEN_TWOVEC_TEST(sqshl_8b_8b_7, "sqshl v6.8b, v27.8b, #7", 6, 27)
GEN_TWOVEC_TEST(uqshl_2d_2d_0, "uqshl v6.2d, v27.2d, #0", 6, 27)
GEN_TWOVEC_TEST(uqshl_2d_2d_32, "uqshl v6.2d, v27.2d, #32", 6, 27)
GEN_TWOVEC_TEST(uqshl_2d_2d_63, "uqshl v6.2d, v27.2d, #63", 6, 27)
GEN_TWOVEC_TEST(uqshl_4s_4s_0, "uqshl v6.4s, v27.4s, #0", 6, 27)
GEN_TWOVEC_TEST(uqshl_4s_4s_16, "uqshl v6.4s, v27.4s, #16", 6, 27)
GEN_TWOVEC_TEST(uqshl_4s_4s_31, "uqshl v6.4s, v27.4s, #31", 6, 27)
GEN_TWOVEC_TEST(uqshl_2s_2s_0, "uqshl v6.2s, v27.2s, #0", 6, 27)
GEN_TWOVEC_TEST(uqshl_2s_2s_16, "uqshl v6.2s, v27.2s, #16", 6, 27)
GEN_TWOVEC_TEST(uqshl_2s_2s_31, "uqshl v6.2s, v27.2s, #31", 6, 27)
GEN_TWOVEC_TEST(uqshl_8h_8h_0, "uqshl v6.8h, v27.8h, #0", 6, 27)
GEN_TWOVEC_TEST(uqshl_8h_8h_8, "uqshl v6.8h, v27.8h, #8", 6, 27)
GEN_TWOVEC_TEST(uqshl_8h_8h_15, "uqshl v6.8h, v27.8h, #15", 6, 27)
GEN_TWOVEC_TEST(uqshl_4h_4h_0, "uqshl v6.4h, v27.4h, #0", 6, 27)
GEN_TWOVEC_TEST(uqshl_4h_4h_8, "uqshl v6.4h, v27.4h, #8", 6, 27)
GEN_TWOVEC_TEST(uqshl_4h_4h_15, "uqshl v6.4h, v27.4h, #15", 6, 27)
GEN_TWOVEC_TEST(uqshl_16b_16b_0, "uqshl v6.16b, v27.16b, #0", 6, 27)
GEN_TWOVEC_TEST(uqshl_16b_16b_3, "uqshl v6.16b, v27.16b, #3", 6, 27)
GEN_TWOVEC_TEST(uqshl_16b_16b_7, "uqshl v6.16b, v27.16b, #7", 6, 27)
GEN_TWOVEC_TEST(uqshl_8b_8b_0, "uqshl v6.8b, v27.8b, #0", 6, 27)
GEN_TWOVEC_TEST(uqshl_8b_8b_3, "uqshl v6.8b, v27.8b, #3", 6, 27)
GEN_TWOVEC_TEST(uqshl_8b_8b_7, "uqshl v6.8b, v27.8b, #7", 6, 27)
GEN_TWOVEC_TEST(sqshlu_2d_2d_0, "sqshlu v6.2d, v27.2d, #0", 6, 27)
GEN_TWOVEC_TEST(sqshlu_2d_2d_32, "sqshlu v6.2d, v27.2d, #32", 6, 27)
GEN_TWOVEC_TEST(sqshlu_2d_2d_63, "sqshlu v6.2d, v27.2d, #63", 6, 27)
GEN_TWOVEC_TEST(sqshlu_4s_4s_0, "sqshlu v6.4s, v27.4s, #0", 6, 27)
GEN_TWOVEC_TEST(sqshlu_4s_4s_16, "sqshlu v6.4s, v27.4s, #16", 6, 27)
GEN_TWOVEC_TEST(sqshlu_4s_4s_31, "sqshlu v6.4s, v27.4s, #31", 6, 27)
GEN_TWOVEC_TEST(sqshlu_2s_2s_0, "sqshlu v6.2s, v27.2s, #0", 6, 27)
GEN_TWOVEC_TEST(sqshlu_2s_2s_16, "sqshlu v6.2s, v27.2s, #16", 6, 27)
GEN_TWOVEC_TEST(sqshlu_2s_2s_31, "sqshlu v6.2s, v27.2s, #31", 6, 27)
GEN_TWOVEC_TEST(sqshlu_8h_8h_0, "sqshlu v6.8h, v27.8h, #0", 6, 27)
GEN_TWOVEC_TEST(sqshlu_8h_8h_8, "sqshlu v6.8h, v27.8h, #8", 6, 27)
GEN_TWOVEC_TEST(sqshlu_8h_8h_15, "sqshlu v6.8h, v27.8h, #15", 6, 27)
GEN_TWOVEC_TEST(sqshlu_4h_4h_0, "sqshlu v6.4h, v27.4h, #0", 6, 27)
GEN_TWOVEC_TEST(sqshlu_4h_4h_8, "sqshlu v6.4h, v27.4h, #8", 6, 27)
GEN_TWOVEC_TEST(sqshlu_4h_4h_15, "sqshlu v6.4h, v27.4h, #15", 6, 27)
GEN_TWOVEC_TEST(sqshlu_16b_16b_0, "sqshlu v6.16b, v27.16b, #0", 6, 27)
GEN_TWOVEC_TEST(sqshlu_16b_16b_3, "sqshlu v6.16b, v27.16b, #3", 6, 27)
GEN_TWOVEC_TEST(sqshlu_16b_16b_7, "sqshlu v6.16b, v27.16b, #7", 6, 27)
GEN_TWOVEC_TEST(sqshlu_8b_8b_0, "sqshlu v6.8b, v27.8b, #0", 6, 27)
GEN_TWOVEC_TEST(sqshlu_8b_8b_3, "sqshlu v6.8b, v27.8b, #3", 6, 27)
GEN_TWOVEC_TEST(sqshlu_8b_8b_7, "sqshlu v6.8b, v27.8b, #7", 6, 27)
GEN_TWOVEC_TEST(sqxtn_s_d, "sqxtn s31, d0", 31, 0)
GEN_TWOVEC_TEST(sqxtn_h_s, "sqxtn h31, s0", 31, 0)
GEN_TWOVEC_TEST(sqxtn_b_h, "sqxtn b31, h0", 31, 0)
GEN_TWOVEC_TEST(uqxtn_s_d, "uqxtn s31, d0", 31, 0)
GEN_TWOVEC_TEST(uqxtn_h_s, "uqxtn h31, s0", 31, 0)
GEN_TWOVEC_TEST(uqxtn_b_h, "uqxtn b31, h0", 31, 0)
GEN_TWOVEC_TEST(sqxtun_s_d, "sqxtun s31, d0", 31, 0)
GEN_TWOVEC_TEST(sqxtun_h_s, "sqxtun h31, s0", 31, 0)
GEN_TWOVEC_TEST(sqxtun_b_h, "sqxtun b31, h0", 31, 0)
GEN_UNARY_TEST(sqxtn, 2s, 2d)
GEN_UNARY_TEST(sqxtn2, 4s, 2d)
GEN_UNARY_TEST(sqxtn, 4h, 4s)
GEN_UNARY_TEST(sqxtn2, 8h, 4s)
GEN_UNARY_TEST(sqxtn, 8b, 8h)
GEN_UNARY_TEST(sqxtn2, 16b, 8h)
GEN_UNARY_TEST(uqxtn, 2s, 2d)
GEN_UNARY_TEST(uqxtn2, 4s, 2d)
GEN_UNARY_TEST(uqxtn, 4h, 4s)
GEN_UNARY_TEST(uqxtn2, 8h, 4s)
GEN_UNARY_TEST(uqxtn, 8b, 8h)
GEN_UNARY_TEST(uqxtn2, 16b, 8h)
GEN_UNARY_TEST(sqxtun, 2s, 2d)
GEN_UNARY_TEST(sqxtun2, 4s, 2d)
GEN_UNARY_TEST(sqxtun, 4h, 4s)
GEN_UNARY_TEST(sqxtun2, 8h, 4s)
GEN_UNARY_TEST(sqxtun, 8b, 8h)
GEN_UNARY_TEST(sqxtun2, 16b, 8h)
GEN_THREEVEC_TEST(srhadd_4s_4s_4s,"srhadd v2.4s, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(srhadd_2s_2s_2s,"srhadd v2.2s, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(srhadd_8h_8h_8h,"srhadd v2.8h, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(srhadd_4h_4h_4h,"srhadd v2.4h, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(srhadd_16b_16b_16b,
"srhadd v2.16b, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(srhadd_8b_8b_8b,"srhadd v2.8b, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(urhadd_4s_4s_4s,"urhadd v2.4s, v11.4s, v29.4s", 2, 11, 29)
GEN_THREEVEC_TEST(urhadd_2s_2s_2s,"urhadd v2.2s, v11.2s, v29.2s", 2, 11, 29)
GEN_THREEVEC_TEST(urhadd_8h_8h_8h,"urhadd v2.8h, v11.8h, v29.8h", 2, 11, 29)
GEN_THREEVEC_TEST(urhadd_4h_4h_4h,"urhadd v2.4h, v11.4h, v29.4h", 2, 11, 29)
GEN_THREEVEC_TEST(urhadd_16b_16b_16b,
"urhadd v2.16b, v11.16b, v29.16b", 2, 11, 29)
GEN_THREEVEC_TEST(urhadd_8b_8b_8b,"urhadd v2.8b, v11.8b, v29.8b", 2, 11, 29)
GEN_THREEVEC_TEST(sshl_d_d_d, "sshl d29, d28, d27", 29, 28, 27)
GEN_THREEVEC_TEST(ushl_d_d_d, "ushl d29, d28, d27", 29, 28, 27)
GEN_THREEVEC_TEST(sshl_2d_2d_2d, "sshl v29.2d, v28.2d, v27.2d", 29,28,27)
GEN_THREEVEC_TEST(sshl_4s_4s_4s, "sshl v29.4s, v28.4s, v27.4s", 29,28,27)
GEN_THREEVEC_TEST(sshl_2s_2s_2s, "sshl v29.2s, v28.2s, v27.2s", 29,28,27)
GEN_THREEVEC_TEST(sshl_8h_8h_8h, "sshl v29.8h, v28.8h, v27.8h", 29,28,27)
GEN_THREEVEC_TEST(sshl_4h_4h_4h, "sshl v29.4h, v28.4h, v27.4h", 29,28,27)
GEN_THREEVEC_TEST(sshl_16b_16b_16b, "sshl v29.16b, v28.16b, v27.16b", 29,28,27)
GEN_THREEVEC_TEST(sshl_8b_8b_8b, "sshl v29.8b, v28.8b, v27.8b", 29,28,27)
GEN_THREEVEC_TEST(ushl_2d_2d_2d, "ushl v29.2d, v28.2d, v27.2d", 29,28,27)
GEN_THREEVEC_TEST(ushl_4s_4s_4s, "ushl v29.4s, v28.4s, v27.4s", 29,28,27)
GEN_THREEVEC_TEST(ushl_2s_2s_2s, "ushl v29.2s, v28.2s, v27.2s", 29,28,27)
GEN_THREEVEC_TEST(ushl_8h_8h_8h, "ushl v29.8h, v28.8h, v27.8h", 29,28,27)
GEN_THREEVEC_TEST(ushl_4h_4h_4h, "ushl v29.4h, v28.4h, v27.4h", 29,28,27)
GEN_THREEVEC_TEST(ushl_16b_16b_16b, "ushl v29.16b, v28.16b, v27.16b", 29,28,27)
GEN_THREEVEC_TEST(ushl_8b_8b_8b, "ushl v29.8b, v28.8b, v27.8b", 29,28,27)
GEN_TWOVEC_TEST(shl_d_d_0, "shl d5, d28, #0", 5, 28)
GEN_TWOVEC_TEST(shl_d_d_32, "shl d5, d28, #32", 5, 28)
GEN_TWOVEC_TEST(shl_d_d_63, "shl d5, d28, #63", 5, 28)
GEN_TWOVEC_TEST(sshr_d_d_1, "sshr d5, d28, #1", 5, 28)
GEN_TWOVEC_TEST(sshr_d_d_32, "sshr d5, d28, #32", 5, 28)
GEN_TWOVEC_TEST(sshr_d_d_64, "sshr d5, d28, #64", 5, 28)
GEN_TWOVEC_TEST(ushr_d_d_1, "ushr d5, d28, #1", 5, 28)
GEN_TWOVEC_TEST(ushr_d_d_32, "ushr d5, d28, #32", 5, 28)
GEN_TWOVEC_TEST(ushr_d_d_64, "ushr d5, d28, #64", 5, 28)
GEN_SHIFT_TEST(shl, 2d, 2d, 0)
GEN_SHIFT_TEST(shl, 2d, 2d, 13)
GEN_SHIFT_TEST(shl, 2d, 2d, 63)
GEN_SHIFT_TEST(shl, 4s, 4s, 0)
GEN_SHIFT_TEST(shl, 4s, 4s, 13)
GEN_SHIFT_TEST(shl, 4s, 4s, 31)
GEN_SHIFT_TEST(shl, 2s, 2s, 0)
GEN_SHIFT_TEST(shl, 2s, 2s, 13)
GEN_SHIFT_TEST(shl, 2s, 2s, 31)
GEN_SHIFT_TEST(shl, 8h, 8h, 0)
GEN_SHIFT_TEST(shl, 8h, 8h, 13)
GEN_SHIFT_TEST(shl, 8h, 8h, 15)
GEN_SHIFT_TEST(shl, 4h, 4h, 0)
GEN_SHIFT_TEST(shl, 4h, 4h, 13)
GEN_SHIFT_TEST(shl, 4h, 4h, 15)
GEN_SHIFT_TEST(shl, 16b, 16b, 0)
GEN_SHIFT_TEST(shl, 16b, 16b, 7)
GEN_SHIFT_TEST(shl, 8b, 8b, 0)
GEN_SHIFT_TEST(shl, 8b, 8b, 7)
GEN_SHIFT_TEST(sshr, 2d, 2d, 1)
GEN_SHIFT_TEST(sshr, 2d, 2d, 13)
GEN_SHIFT_TEST(sshr, 2d, 2d, 64)
GEN_SHIFT_TEST(sshr, 4s, 4s, 1)
GEN_SHIFT_TEST(sshr, 4s, 4s, 13)
GEN_SHIFT_TEST(sshr, 4s, 4s, 32)
GEN_SHIFT_TEST(sshr, 2s, 2s, 1)
GEN_SHIFT_TEST(sshr, 2s, 2s, 13)
GEN_SHIFT_TEST(sshr, 2s, 2s, 32)
GEN_SHIFT_TEST(sshr, 8h, 8h, 1)
GEN_SHIFT_TEST(sshr, 8h, 8h, 13)
GEN_SHIFT_TEST(sshr, 8h, 8h, 16)
GEN_SHIFT_TEST(sshr, 4h, 4h, 1)
GEN_SHIFT_TEST(sshr, 4h, 4h, 13)
GEN_SHIFT_TEST(sshr, 4h, 4h, 16)
GEN_SHIFT_TEST(sshr, 16b, 16b, 1)
GEN_SHIFT_TEST(sshr, 16b, 16b, 8)
GEN_SHIFT_TEST(sshr, 8b, 8b, 1)
GEN_SHIFT_TEST(sshr, 8b, 8b, 8)
GEN_SHIFT_TEST(ushr, 2d, 2d, 1)
GEN_SHIFT_TEST(ushr, 2d, 2d, 13)
GEN_SHIFT_TEST(ushr, 2d, 2d, 64)
GEN_SHIFT_TEST(ushr, 4s, 4s, 1)
GEN_SHIFT_TEST(ushr, 4s, 4s, 13)
GEN_SHIFT_TEST(ushr, 4s, 4s, 32)
GEN_SHIFT_TEST(ushr, 2s, 2s, 1)
GEN_SHIFT_TEST(ushr, 2s, 2s, 13)
GEN_SHIFT_TEST(ushr, 2s, 2s, 32)
GEN_SHIFT_TEST(ushr, 8h, 8h, 1)
GEN_SHIFT_TEST(ushr, 8h, 8h, 13)
GEN_SHIFT_TEST(ushr, 8h, 8h, 16)
GEN_SHIFT_TEST(ushr, 4h, 4h, 1)
GEN_SHIFT_TEST(ushr, 4h, 4h, 13)
GEN_SHIFT_TEST(ushr, 4h, 4h, 16)
GEN_SHIFT_TEST(ushr, 16b, 16b, 1)
GEN_SHIFT_TEST(ushr, 16b, 16b, 8)
GEN_SHIFT_TEST(ushr, 8b, 8b, 1)
GEN_SHIFT_TEST(ushr, 8b, 8b, 8)
GEN_TWOVEC_TEST(ssra_d_d_1, "ssra d5, d28, #1", 5, 28)
GEN_TWOVEC_TEST(ssra_d_d_32, "ssra d5, d28, #32", 5, 28)
GEN_TWOVEC_TEST(ssra_d_d_64, "ssra d5, d28, #64", 5, 28)
GEN_TWOVEC_TEST(usra_d_d_1, "usra d5, d28, #1", 5, 28)
GEN_TWOVEC_TEST(usra_d_d_32, "usra d5, d28, #32", 5, 28)
GEN_TWOVEC_TEST(usra_d_d_64, "usra d5, d28, #64", 5, 28)
GEN_TWOVEC_TEST(ssra_2d_2d_1, "ssra v6.2d, v27.2d, #1", 6, 27)
GEN_TWOVEC_TEST(ssra_2d_2d_32, "ssra v6.2d, v27.2d, #32", 6, 27)
GEN_TWOVEC_TEST(ssra_2d_2d_64, "ssra v6.2d, v27.2d, #64", 6, 27)
GEN_TWOVEC_TEST(ssra_4s_4s_1, "ssra v6.4s, v27.4s, #1", 6, 27)
GEN_TWOVEC_TEST(ssra_4s_4s_16, "ssra v6.4s, v27.4s, #16", 6, 27)
GEN_TWOVEC_TEST(ssra_4s_4s_32, "ssra v6.4s, v27.4s, #32", 6, 27)
GEN_TWOVEC_TEST(ssra_2s_2s_1, "ssra v6.2s, v27.2s, #1", 6, 27)
GEN_TWOVEC_TEST(ssra_2s_2s_16, "ssra v6.2s, v27.2s, #16", 6, 27)
GEN_TWOVEC_TEST(ssra_2s_2s_32, "ssra v6.2s, v27.2s, #32", 6, 27)
GEN_TWOVEC_TEST(ssra_8h_8h_1, "ssra v6.8h, v27.8h, #1", 6, 27)
GEN_TWOVEC_TEST(ssra_8h_8h_8, "ssra v6.8h, v27.8h, #8", 6, 27)
GEN_TWOVEC_TEST(ssra_8h_8h_16, "ssra v6.8h, v27.8h, #16", 6, 27)
GEN_TWOVEC_TEST(ssra_4h_4h_1, "ssra v6.4h, v27.4h, #1", 6, 27)
GEN_TWOVEC_TEST(ssra_4h_4h_8, "ssra v6.4h, v27.4h, #8", 6, 27)
GEN_TWOVEC_TEST(ssra_4h_4h_16, "ssra v6.4h, v27.4h, #16", 6, 27)
GEN_TWOVEC_TEST(ssra_16b_16b_1, "ssra v6.16b, v27.16b, #1", 6, 27)
GEN_TWOVEC_TEST(ssra_16b_16b_3, "ssra v6.16b, v27.16b, #3", 6, 27)
GEN_TWOVEC_TEST(ssra_16b_16b_8, "ssra v6.16b, v27.16b, #8", 6, 27)
GEN_TWOVEC_TEST(ssra_8b_8b_1, "ssra v6.8b, v27.8b, #1", 6, 27)
GEN_TWOVEC_TEST(ssra_8b_8b_3, "ssra v6.8b, v27.8b, #3", 6, 27)
GEN_TWOVEC_TEST(ssra_8b_8b_8, "ssra v6.8b, v27.8b, #8", 6, 27)
GEN_TWOVEC_TEST(usra_2d_2d_1, "usra v6.2d, v27.2d, #1", 6, 27)
GEN_TWOVEC_TEST(usra_2d_2d_32, "usra v6.2d, v27.2d, #32", 6, 27)
GEN_TWOVEC_TEST(usra_2d_2d_64, "usra v6.2d, v27.2d, #64", 6, 27)
GEN_TWOVEC_TEST(usra_4s_4s_1, "usra v6.4s, v27.4s, #1", 6, 27)
GEN_TWOVEC_TEST(usra_4s_4s_16, "usra v6.4s, v27.4s, #16", 6, 27)
GEN_TWOVEC_TEST(usra_4s_4s_32, "usra v6.4s, v27.4s, #32", 6, 27)
GEN_TWOVEC_TEST(usra_2s_2s_1, "usra v6.2s, v27.2s, #1", 6, 27)
GEN_TWOVEC_TEST(usra_2s_2s_16, "usra v6.2s, v27.2s, #16", 6, 27)
GEN_TWOVEC_TEST(usra_2s_2s_32, "usra v6.2s, v27.2s, #32", 6, 27)
GEN_TWOVEC_TEST(usra_8h_8h_1, "usra v6.8h, v27.8h, #1", 6, 27)
GEN_TWOVEC_TEST(usra_8h_8h_8, "usra v6.8h, v27.8h, #8", 6, 27)
GEN_TWOVEC_TEST(usra_8h_8h_16, "usra v6.8h, v27.8h, #16", 6, 27)
GEN_TWOVEC_TEST(usra_4h_4h_1, "usra v6.4h, v27.4h, #1", 6, 27)
GEN_TWOVEC_TEST(usra_4h_4h_8, "usra v6.4h, v27.4h, #8", 6, 27)
GEN_TWOVEC_TEST(usra_4h_4h_16, "usra v6.4h, v27.4h, #16", 6, 27)
GEN_TWOVEC_TEST(usra_16b_16b_1, "usra v6.16b, v27.16b, #1", 6, 27)
GEN_TWOVEC_TEST(usra_16b_16b_3, "usra v6.16b, v27.16b, #3", 6, 27)
GEN_TWOVEC_TEST(usra_16b_16b_8, "usra v6.16b, v27.16b, #8", 6, 27)
GEN_TWOVEC_TEST(usra_8b_8b_1, "usra v6.8b, v27.8b, #1", 6, 27)
GEN_TWOVEC_TEST(usra_8b_8b_3, "usra v6.8b, v27.8b, #3", 6, 27)
GEN_TWOVEC_TEST(usra_8b_8b_8, "usra v6.8b, v27.8b, #8", 6, 27)
GEN_THREEVEC_TEST(srshl_d_d_d, "srshl d29, d28, d27", 29, 28, 27)
GEN_THREEVEC_TEST(urshl_d_d_d, "urshl d29, d28, d27", 29, 28, 27)
GEN_THREEVEC_TEST(srshl_2d_2d_2d, "srshl v29.2d, v28.2d, v27.2d", 29,28,27)
GEN_THREEVEC_TEST(srshl_4s_4s_4s, "srshl v29.4s, v28.4s, v27.4s", 29,28,27)
GEN_THREEVEC_TEST(srshl_2s_2s_2s, "srshl v29.2s, v28.2s, v27.2s", 29,28,27)
GEN_THREEVEC_TEST(srshl_8h_8h_8h, "srshl v29.8h, v28.8h, v27.8h", 29,28,27)
GEN_THREEVEC_TEST(srshl_4h_4h_4h, "srshl v29.4h, v28.4h, v27.4h", 29,28,27)
GEN_THREEVEC_TEST(srshl_16b_16b_16b,"srshl v29.16b, v28.16b, v27.16b", 29,28,27)
GEN_THREEVEC_TEST(srshl_8b_8b_8b, "srshl v29.8b, v28.8b, v27.8b", 29,28,27)
GEN_THREEVEC_TEST(urshl_2d_2d_2d, "urshl v29.2d, v28.2d, v27.2d", 29,28,27)
GEN_THREEVEC_TEST(urshl_4s_4s_4s, "urshl v29.4s, v28.4s, v27.4s", 29,28,27)
GEN_THREEVEC_TEST(urshl_2s_2s_2s, "urshl v29.2s, v28.2s, v27.2s", 29,28,27)
GEN_THREEVEC_TEST(urshl_8h_8h_8h, "urshl v29.8h, v28.8h, v27.8h", 29,28,27)
GEN_THREEVEC_TEST(urshl_4h_4h_4h, "urshl v29.4h, v28.4h, v27.4h", 29,28,27)
GEN_THREEVEC_TEST(urshl_16b_16b_16b,"urshl v29.16b, v28.16b, v27.16b", 29,28,27)
GEN_THREEVEC_TEST(urshl_8b_8b_8b, "urshl v29.8b, v28.8b, v27.8b", 29,28,27)
GEN_TWOVEC_TEST(srshr_d_d_1, "srshr d5, d28, #1", 5, 28)
GEN_TWOVEC_TEST(srshr_d_d_32, "srshr d5, d28, #32", 5, 28)
GEN_TWOVEC_TEST(srshr_d_d_64, "srshr d5, d28, #64", 5, 28)
GEN_TWOVEC_TEST(urshr_d_d_1, "urshr d5, d28, #1", 5, 28)
GEN_TWOVEC_TEST(urshr_d_d_32, "urshr d5, d28, #32", 5, 28)
GEN_TWOVEC_TEST(urshr_d_d_64, "urshr d5, d28, #64", 5, 28)
GEN_TWOVEC_TEST(srshr_2d_2d_1, "srshr v6.2d, v27.2d, #1", 6, 27)
GEN_TWOVEC_TEST(srshr_2d_2d_32, "srshr v6.2d, v27.2d, #32", 6, 27)
GEN_TWOVEC_TEST(srshr_2d_2d_64, "srshr v6.2d, v27.2d, #64", 6, 27)
GEN_TWOVEC_TEST(srshr_4s_4s_1, "srshr v6.4s, v27.4s, #1", 6, 27)
GEN_TWOVEC_TEST(srshr_4s_4s_16, "srshr v6.4s, v27.4s, #16", 6, 27)
GEN_TWOVEC_TEST(srshr_4s_4s_32, "srshr v6.4s, v27.4s, #32", 6, 27)
GEN_TWOVEC_TEST(srshr_2s_2s_1, "srshr v6.2s, v27.2s, #1", 6, 27)
GEN_TWOVEC_TEST(srshr_2s_2s_16, "srshr v6.2s, v27.2s, #16", 6, 27)
GEN_TWOVEC_TEST(srshr_2s_2s_32, "srshr v6.2s, v27.2s, #32", 6, 27)
GEN_TWOVEC_TEST(srshr_8h_8h_1, "srshr v6.8h, v27.8h, #1", 6, 27)
GEN_TWOVEC_TEST(srshr_8h_8h_8, "srshr v6.8h, v27.8h, #8", 6, 27)
GEN_TWOVEC_TEST(srshr_8h_8h_16, "srshr v6.8h, v27.8h, #16", 6, 27)
GEN_TWOVEC_TEST(srshr_4h_4h_1, "srshr v6.4h, v27.4h, #1", 6, 27)
GEN_TWOVEC_TEST(srshr_4h_4h_8, "srshr v6.4h, v27.4h, #8", 6, 27)
GEN_TWOVEC_TEST(srshr_4h_4h_16, "srshr v6.4h, v27.4h, #16", 6, 27)
GEN_TWOVEC_TEST(srshr_16b_16b_1, "srshr v6.16b, v27.16b, #1", 6, 27)
GEN_TWOVEC_TEST(srshr_16b_16b_3, "srshr v6.16b, v27.16b, #3", 6, 27)
GEN_TWOVEC_TEST(srshr_16b_16b_8, "srshr v6.16b, v27.16b, #8", 6, 27)
GEN_TWOVEC_TEST(srshr_8b_8b_1, "srshr v6.8b, v27.8b, #1", 6, 27)
GEN_TWOVEC_TEST(srshr_8b_8b_3, "srshr v6.8b, v27.8b, #3", 6, 27)
GEN_TWOVEC_TEST(srshr_8b_8b_8, "srshr v6.8b, v27.8b, #8", 6, 27)
GEN_TWOVEC_TEST(urshr_2d_2d_1, "urshr v6.2d, v27.2d, #1", 6, 27)
GEN_TWOVEC_TEST(urshr_2d_2d_32, "urshr v6.2d, v27.2d, #32", 6, 27)
GEN_TWOVEC_TEST(urshr_2d_2d_64, "urshr v6.2d, v27.2d, #64", 6, 27)
GEN_TWOVEC_TEST(urshr_4s_4s_1, "urshr v6.4s, v27.4s, #1", 6, 27)
GEN_TWOVEC_TEST(urshr_4s_4s_16, "urshr v6.4s, v27.4s, #16", 6, 27)
GEN_TWOVEC_TEST(urshr_4s_4s_32, "urshr v6.4s, v27.4s, #32", 6, 27)
GEN_TWOVEC_TEST(urshr_2s_2s_1, "urshr v6.2s, v27.2s, #1", 6, 27)
GEN_TWOVEC_TEST(urshr_2s_2s_16, "urshr v6.2s, v27.2s, #16", 6, 27)
GEN_TWOVEC_TEST(urshr_2s_2s_32, "urshr v6.2s, v27.2s, #32", 6, 27)
GEN_TWOVEC_TEST(urshr_8h_8h_1, "urshr v6.8h, v27.8h, #1", 6, 27)
GEN_TWOVEC_TEST(urshr_8h_8h_8, "urshr v6.8h, v27.8h, #8", 6, 27)
GEN_TWOVEC_TEST(urshr_8h_8h_16, "urshr v6.8h, v27.8h, #16", 6, 27)
GEN_TWOVEC_TEST(urshr_4h_4h_1, "urshr v6.4h, v27.4h, #1", 6, 27)
GEN_TWOVEC_TEST(urshr_4h_4h_8, "urshr v6.4h, v27.4h, #8", 6, 27)
GEN_TWOVEC_TEST(urshr_4h_4h_16, "urshr v6.4h, v27.4h, #16", 6, 27)
GEN_TWOVEC_TEST(urshr_16b_16b_1, "urshr v6.16b, v27.16b, #1", 6, 27)
GEN_TWOVEC_TEST(urshr_16b_16b_3, "urshr v6.16b, v27.16b, #3", 6, 27)
GEN_TWOVEC_TEST(urshr_16b_16b_8, "urshr v6.16b, v27.16b, #8", 6, 27)
GEN_TWOVEC_TEST(urshr_8b_8b_1, "urshr v6.8b, v27.8b, #1", 6, 27)
GEN_TWOVEC_TEST(urshr_8b_8b_3, "urshr v6.8b, v27.8b, #3", 6, 27)
GEN_TWOVEC_TEST(urshr_8b_8b_8, "urshr v6.8b, v27.8b, #8", 6, 27)
GEN_TWOVEC_TEST(srsra_d_d_1, "srsra d5, d28, #1", 5, 28)
GEN_TWOVEC_TEST(srsra_d_d_32, "srsra d5, d28, #32", 5, 28)
GEN_TWOVEC_TEST(srsra_d_d_64, "srsra d5, d28, #64", 5, 28)
GEN_TWOVEC_TEST(ursra_d_d_1, "ursra d5, d28, #1", 5, 28)
GEN_TWOVEC_TEST(ursra_d_d_32, "ursra d5, d28, #32", 5, 28)
GEN_TWOVEC_TEST(ursra_d_d_64, "ursra d5, d28, #64", 5, 28)
GEN_TWOVEC_TEST(srsra_2d_2d_1, "srsra v6.2d, v27.2d, #1", 6, 27)
GEN_TWOVEC_TEST(srsra_2d_2d_32, "srsra v6.2d, v27.2d, #32", 6, 27)
GEN_TWOVEC_TEST(srsra_2d_2d_64, "srsra v6.2d, v27.2d, #64", 6, 27)
GEN_TWOVEC_TEST(srsra_4s_4s_1, "srsra v6.4s, v27.4s, #1", 6, 27)
GEN_TWOVEC_TEST(srsra_4s_4s_16, "srsra v6.4s, v27.4s, #16", 6, 27)
GEN_TWOVEC_TEST(srsra_4s_4s_32, "srsra v6.4s, v27.4s, #32", 6, 27)
GEN_TWOVEC_TEST(srsra_2s_2s_1, "srsra v6.2s, v27.2s, #1", 6, 27)
GEN_TWOVEC_TEST(srsra_2s_2s_16, "srsra v6.2s, v27.2s, #16", 6, 27)
GEN_TWOVEC_TEST(srsra_2s_2s_32, "srsra v6.2s, v27.2s, #32", 6, 27)
GEN_TWOVEC_TEST(srsra_8h_8h_1, "srsra v6.8h, v27.8h, #1", 6, 27)
GEN_TWOVEC_TEST(srsra_8h_8h_8, "srsra v6.8h, v27.8h, #8", 6, 27)
GEN_TWOVEC_TEST(srsra_8h_8h_16, "srsra v6.8h, v27.8h, #16", 6, 27)
GEN_TWOVEC_TEST(srsra_4h_4h_1, "srsra v6.4h, v27.4h, #1", 6, 27)
GEN_TWOVEC_TEST(srsra_4h_4h_8, "srsra v6.4h, v27.4h, #8", 6, 27)
GEN_TWOVEC_TEST(srsra_4h_4h_16, "srsra v6.4h, v27.4h, #16", 6, 27)
GEN_TWOVEC_TEST(srsra_16b_16b_1, "srsra v6.16b, v27.16b, #1", 6, 27)
GEN_TWOVEC_TEST(srsra_16b_16b_3, "srsra v6.16b, v27.16b, #3", 6, 27)
GEN_TWOVEC_TEST(srsra_16b_16b_8, "srsra v6.16b, v27.16b, #8", 6, 27)
GEN_TWOVEC_TEST(srsra_8b_8b_1, "srsra v6.8b, v27.8b, #1", 6, 27)
GEN_TWOVEC_TEST(srsra_8b_8b_3, "srsra v6.8b, v27.8b, #3", 6, 27)
GEN_TWOVEC_TEST(srsra_8b_8b_8, "srsra v6.8b, v27.8b, #8", 6, 27)
GEN_TWOVEC_TEST(ursra_2d_2d_1, "ursra v6.2d, v27.2d, #1", 6, 27)
GEN_TWOVEC_TEST(ursra_2d_2d_32, "ursra v6.2d, v27.2d, #32", 6, 27)
GEN_TWOVEC_TEST(ursra_2d_2d_64, "ursra v6.2d, v27.2d, #64", 6, 27)
GEN_TWOVEC_TEST(ursra_4s_4s_1, "ursra v6.4s, v27.4s, #1", 6, 27)
GEN_TWOVEC_TEST(ursra_4s_4s_16, "ursra v6.4s, v27.4s, #16", 6, 27)
GEN_TWOVEC_TEST(ursra_4s_4s_32, "ursra v6.4s, v27.4s, #32", 6, 27)
GEN_TWOVEC_TEST(ursra_2s_2s_1, "ursra v6.2s, v27.2s, #1", 6, 27)
GEN_TWOVEC_TEST(ursra_2s_2s_16, "ursra v6.2s, v27.2s, #16", 6, 27)
GEN_TWOVEC_TEST(ursra_2s_2s_32, "ursra v6.2s, v27.2s, #32", 6, 27)
GEN_TWOVEC_TEST(ursra_8h_8h_1, "ursra v6.8h, v27.8h, #1", 6, 27)
GEN_TWOVEC_TEST(ursra_8h_8h_8, "ursra v6.8h, v27.8h, #8", 6, 27)
GEN_TWOVEC_TEST(ursra_8h_8h_16, "ursra v6.8h, v27.8h, #16", 6, 27)
GEN_TWOVEC_TEST(ursra_4h_4h_1, "ursra v6.4h, v27.4h, #1", 6, 27)
GEN_TWOVEC_TEST(ursra_4h_4h_8, "ursra v6.4h, v27.4h, #8", 6, 27)
GEN_TWOVEC_TEST(ursra_4h_4h_16, "ursra v6.4h, v27.4h, #16", 6, 27)
GEN_TWOVEC_TEST(ursra_16b_16b_1, "ursra v6.16b, v27.16b, #1", 6, 27)
GEN_TWOVEC_TEST(ursra_16b_16b_3, "ursra v6.16b, v27.16b, #3", 6, 27)
GEN_TWOVEC_TEST(ursra_16b_16b_8, "ursra v6.16b, v27.16b, #8", 6, 27)
GEN_TWOVEC_TEST(ursra_8b_8b_1, "ursra v6.8b, v27.8b, #1", 6, 27)
GEN_TWOVEC_TEST(ursra_8b_8b_3, "ursra v6.8b, v27.8b, #3", 6, 27)
GEN_TWOVEC_TEST(ursra_8b_8b_8, "ursra v6.8b, v27.8b, #8", 6, 27)
GEN_SHIFT_TEST(sshll, 2d, 2s, 0)
GEN_SHIFT_TEST(sshll, 2d, 2s, 15)
GEN_SHIFT_TEST(sshll, 2d, 2s, 31)
GEN_SHIFT_TEST(sshll2, 2d, 4s, 0)
GEN_SHIFT_TEST(sshll2, 2d, 4s, 15)
GEN_SHIFT_TEST(sshll2, 2d, 4s, 31)
GEN_SHIFT_TEST(sshll, 4s, 4h, 0)
GEN_SHIFT_TEST(sshll, 4s, 4h, 7)
GEN_SHIFT_TEST(sshll, 4s, 4h, 15)
GEN_SHIFT_TEST(sshll2, 4s, 8h, 0)
GEN_SHIFT_TEST(sshll2, 4s, 8h, 7)
GEN_SHIFT_TEST(sshll2, 4s, 8h, 15)
GEN_SHIFT_TEST(sshll, 8h, 8b, 0)
GEN_SHIFT_TEST(sshll, 8h, 8b, 3)
GEN_SHIFT_TEST(sshll, 8h, 8b, 7)
GEN_SHIFT_TEST(sshll2, 8h, 16b, 0)
GEN_SHIFT_TEST(sshll2, 8h, 16b, 3)
GEN_SHIFT_TEST(sshll2, 8h, 16b, 7)
GEN_SHIFT_TEST(ushll, 2d, 2s, 0)
GEN_SHIFT_TEST(ushll, 2d, 2s, 15)
GEN_SHIFT_TEST(ushll, 2d, 2s, 31)
GEN_SHIFT_TEST(ushll2, 2d, 4s, 0)
GEN_SHIFT_TEST(ushll2, 2d, 4s, 15)
GEN_SHIFT_TEST(ushll2, 2d, 4s, 31)
GEN_SHIFT_TEST(ushll, 4s, 4h, 0)
GEN_SHIFT_TEST(ushll, 4s, 4h, 7)
GEN_SHIFT_TEST(ushll, 4s, 4h, 15)
GEN_SHIFT_TEST(ushll2, 4s, 8h, 0)
GEN_SHIFT_TEST(ushll2, 4s, 8h, 7)
GEN_SHIFT_TEST(ushll2, 4s, 8h, 15)
GEN_SHIFT_TEST(ushll, 8h, 8b, 0)
GEN_SHIFT_TEST(ushll, 8h, 8b, 3)
GEN_SHIFT_TEST(ushll, 8h, 8b, 7)
GEN_SHIFT_TEST(ushll2, 8h, 16b, 0)
GEN_SHIFT_TEST(ushll2, 8h, 16b, 3)
GEN_SHIFT_TEST(ushll2, 8h, 16b, 7)
GEN_TWOVEC_TEST(suqadd_d_d, "suqadd d22, d23", 22, 23)
GEN_TWOVEC_TEST(suqadd_s_s, "suqadd s22, s23", 22, 23)
GEN_TWOVEC_TEST(suqadd_h_h, "suqadd h22, h23", 22, 23)
GEN_TWOVEC_TEST(suqadd_b_b, "suqadd b22, b23", 22, 23)
GEN_TWOVEC_TEST(usqadd_d_d, "usqadd d22, d23", 22, 23)
GEN_TWOVEC_TEST(usqadd_s_s, "usqadd s22, s23", 22, 23)
GEN_TWOVEC_TEST(usqadd_h_h, "usqadd h22, h23", 22, 23)
GEN_TWOVEC_TEST(usqadd_b_b, "usqadd b22, b23", 22, 23)
GEN_TWOVEC_TEST(suqadd_2d_2d, "suqadd v6.2d, v27.2d", 6, 27)
GEN_TWOVEC_TEST(suqadd_4s_4s, "suqadd v6.4s, v27.4s", 6, 27)
GEN_TWOVEC_TEST(suqadd_2s_2s, "suqadd v6.2s, v27.2s", 6, 27)
GEN_TWOVEC_TEST(suqadd_8h_8h, "suqadd v6.8h, v27.8h", 6, 27)
GEN_TWOVEC_TEST(suqadd_4h_4h, "suqadd v6.4h, v27.4h", 6, 27)
GEN_TWOVEC_TEST(suqadd_16b_16b, "suqadd v6.16b, v27.16b", 6, 27)
GEN_TWOVEC_TEST(suqadd_8b_8b, "suqadd v6.8b, v27.8b", 6, 27)
GEN_TWOVEC_TEST(usqadd_2d_2d, "usqadd v6.2d, v27.2d", 6, 27)
GEN_TWOVEC_TEST(usqadd_4s_4s, "usqadd v6.4s, v27.4s", 6, 27)
GEN_TWOVEC_TEST(usqadd_2s_2s, "usqadd v6.2s, v27.2s", 6, 27)
GEN_TWOVEC_TEST(usqadd_8h_8h, "usqadd v6.8h, v27.8h", 6, 27)
GEN_TWOVEC_TEST(usqadd_4h_4h, "usqadd v6.4h, v27.4h", 6, 27)
GEN_TWOVEC_TEST(usqadd_16b_16b, "usqadd v6.16b, v27.16b", 6, 27)
GEN_TWOVEC_TEST(usqadd_8b_8b, "usqadd v6.8b, v27.8b", 6, 27)
// Uses v15 as the first table entry
GEN_THREEVEC_TEST(
tbl_16b_1reg, "tbl v21.16b, {v15.16b}, v23.16b", 21, 15, 23)
// and v15 ^ v21 as the second table entry
GEN_THREEVEC_TEST(
tbl_16b_2reg, "eor v16.16b, v15.16b, v21.16b ; "
"tbl v21.16b, {v15.16b, v16.16b}, v23.16b", 21, 15, 23)
// and v15 ^ v23 as the third table entry
GEN_THREEVEC_TEST(
tbl_16b_3reg, "eor v16.16b, v15.16b, v21.16b ; "
"eor v17.16b, v15.16b, v23.16b ; "
"tbl v21.16b, {v15.16b, v16.16b, v17.16b}, v23.16b",
21, 15, 23)
// and v21 ^ v23 as the fourth table entry
GEN_THREEVEC_TEST(
tbl_16b_4reg, "eor v16.16b, v15.16b, v21.16b ; "
"eor v17.16b, v15.16b, v23.16b ; "
"eor v18.16b, v21.16b, v23.16b ; "
"tbl v21.16b, {v15.16b, v16.16b, v17.16b, v18.16b}, v23.16b",
21, 15, 23)
// Same register scheme for tbl .8b, tbx .16b, tbx.8b
GEN_THREEVEC_TEST(
tbl_8b_1reg, "tbl v21.8b, {v15.16b}, v23.8b", 21, 15, 23)
GEN_THREEVEC_TEST(
tbl_8b_2reg, "eor v16.16b, v15.16b, v21.16b ; "
"tbl v21.8b, {v15.16b, v16.16b}, v23.8b", 21, 15, 23)
GEN_THREEVEC_TEST(
tbl_8b_3reg, "eor v16.16b, v15.16b, v21.16b ; "
"eor v17.16b, v15.16b, v23.16b ; "
"tbl v21.8b, {v15.16b, v16.16b, v17.16b}, v23.8b",
21, 15, 23)
GEN_THREEVEC_TEST(
tbl_8b_4reg, "eor v16.16b, v15.16b, v21.16b ; "
"eor v17.16b, v15.16b, v23.16b ; "
"eor v18.16b, v21.16b, v23.16b ; "
"tbl v21.8b, {v15.16b, v16.16b, v17.16b, v18.16b}, v23.8b",
21, 15, 23)
GEN_THREEVEC_TEST(
tbx_16b_1reg, "tbx v21.16b, {v15.16b}, v23.16b", 21, 15, 23)
GEN_THREEVEC_TEST(
tbx_16b_2reg, "eor v16.16b, v15.16b, v21.16b ; "
"tbx v21.16b, {v15.16b, v16.16b}, v23.16b", 21, 15, 23)
GEN_THREEVEC_TEST(
tbx_16b_3reg, "eor v16.16b, v15.16b, v21.16b ; "
"eor v17.16b, v15.16b, v23.16b ; "
"tbx v21.16b, {v15.16b, v16.16b, v17.16b}, v23.16b",
21, 15, 23)
GEN_THREEVEC_TEST(
tbx_16b_4reg, "eor v16.16b, v15.16b, v21.16b ; "
"eor v17.16b, v15.16b, v23.16b ; "
"eor v18.16b, v21.16b, v23.16b ; "
"tbx v21.16b, {v15.16b, v16.16b, v17.16b, v18.16b}, v23.16b",
21, 15, 23)
// Same register scheme for tbx .8b, tbx .16b, tbx.8b
GEN_THREEVEC_TEST(
tbx_8b_1reg, "tbx v21.8b, {v15.16b}, v23.8b", 21, 15, 23)
GEN_THREEVEC_TEST(
tbx_8b_2reg, "eor v16.16b, v15.16b, v21.16b ; "
"tbx v21.8b, {v15.16b, v16.16b}, v23.8b", 21, 15, 23)
GEN_THREEVEC_TEST(
tbx_8b_3reg, "eor v16.16b, v15.16b, v21.16b ; "
"eor v17.16b, v15.16b, v23.16b ; "
"tbx v21.8b, {v15.16b, v16.16b, v17.16b}, v23.8b",
21, 15, 23)
GEN_THREEVEC_TEST(
tbx_8b_4reg, "eor v16.16b, v15.16b, v21.16b ; "
"eor v17.16b, v15.16b, v23.16b ; "
"eor v18.16b, v21.16b, v23.16b ; "
"tbx v21.8b, {v15.16b, v16.16b, v17.16b, v18.16b}, v23.8b",
21, 15, 23)
GEN_THREEVEC_TEST(trn1_2d_2d_2d, "trn1 v1.2d, v2.2d, v4.2d", 1, 2, 4)
GEN_THREEVEC_TEST(trn1_4s_4s_4s, "trn1 v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(trn1_2s_2s_2s, "trn1 v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(trn1_8h_8h_8h, "trn1 v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(trn1_4h_4h_4h, "trn1 v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(trn1_16b_16b_16b, "trn1 v1.16b, v2.16b, v4.16b", 1, 2, 4)
GEN_THREEVEC_TEST(trn1_8b_8b_8b, "trn1 v1.8b, v2.8b, v4.8b", 1, 2, 4)
GEN_THREEVEC_TEST(trn2_2d_2d_2d, "trn2 v1.2d, v2.2d, v4.2d", 1, 2, 4)
GEN_THREEVEC_TEST(trn2_4s_4s_4s, "trn2 v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(trn2_2s_2s_2s, "trn2 v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(trn2_8h_8h_8h, "trn2 v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(trn2_4h_4h_4h, "trn2 v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(trn2_16b_16b_16b, "trn2 v1.16b, v2.16b, v4.16b", 1, 2, 4)
GEN_THREEVEC_TEST(trn2_8b_8b_8b, "trn2 v1.8b, v2.8b, v4.8b", 1, 2, 4)
GEN_TWOVEC_TEST(urecpe_4s_4s, "urecpe v6.4s, v27.4s", 6, 27)
GEN_TWOVEC_TEST(urecpe_2s_2s, "urecpe v6.2s, v27.2s", 6, 27)
GEN_TWOVEC_TEST(ursqrte_4s_4s, "ursqrte v6.4s, v27.4s", 6, 27)
GEN_TWOVEC_TEST(ursqrte_2s_2s, "ursqrte v6.2s, v27.2s", 6, 27)
GEN_THREEVEC_TEST(uzp1_2d_2d_2d, "uzp1 v1.2d, v2.2d, v4.2d", 1, 2, 4)
GEN_THREEVEC_TEST(uzp1_4s_4s_4s, "uzp1 v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(uzp1_2s_2s_2s, "uzp1 v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(uzp1_8h_8h_8h, "uzp1 v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(uzp1_4h_4h_4h, "uzp1 v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(uzp1_16b_16b_16b, "uzp1 v1.16b, v2.16b, v4.16b", 1, 2, 4)
GEN_THREEVEC_TEST(uzp1_8b_8b_8b, "uzp1 v1.8b, v2.8b, v4.8b", 1, 2, 4)
GEN_THREEVEC_TEST(uzp2_2d_2d_2d, "uzp2 v1.2d, v2.2d, v4.2d", 1, 2, 4)
GEN_THREEVEC_TEST(uzp2_4s_4s_4s, "uzp2 v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(uzp2_2s_2s_2s, "uzp2 v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(uzp2_8h_8h_8h, "uzp2 v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(uzp2_4h_4h_4h, "uzp2 v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(uzp2_16b_16b_16b, "uzp2 v1.16b, v2.16b, v4.16b", 1, 2, 4)
GEN_THREEVEC_TEST(uzp2_8b_8b_8b, "uzp2 v1.8b, v2.8b, v4.8b", 1, 2, 4)
GEN_THREEVEC_TEST(zip1_2d_2d_2d, "zip1 v1.2d, v2.2d, v4.2d", 1, 2, 4)
GEN_THREEVEC_TEST(zip1_4s_4s_4s, "zip1 v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(zip1_2s_2s_2s, "zip1 v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(zip1_8h_8h_8h, "zip1 v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(zip1_4h_4h_4h, "zip1 v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(zip1_16b_16b_16b, "zip1 v1.16b, v2.16b, v4.16b", 1, 2, 4)
GEN_THREEVEC_TEST(zip1_8b_8b_8b, "zip1 v1.8b, v2.8b, v4.8b", 1, 2, 4)
GEN_THREEVEC_TEST(zip2_2d_2d_2d, "zip2 v1.2d, v2.2d, v4.2d", 1, 2, 4)
GEN_THREEVEC_TEST(zip2_4s_4s_4s, "zip2 v1.4s, v2.4s, v4.4s", 1, 2, 4)
GEN_THREEVEC_TEST(zip2_2s_2s_2s, "zip2 v1.2s, v2.2s, v4.2s", 1, 2, 4)
GEN_THREEVEC_TEST(zip2_8h_8h_8h, "zip2 v1.8h, v2.8h, v4.8h", 1, 2, 4)
GEN_THREEVEC_TEST(zip2_4h_4h_4h, "zip2 v1.4h, v2.4h, v4.4h", 1, 2, 4)
GEN_THREEVEC_TEST(zip2_16b_16b_16b, "zip2 v1.16b, v2.16b, v4.16b", 1, 2, 4)
GEN_THREEVEC_TEST(zip2_8b_8b_8b, "zip2 v1.8b, v2.8b, v4.8b", 1, 2, 4)
GEN_UNARY_TEST(xtn, 2s, 2d)
GEN_UNARY_TEST(xtn2, 4s, 2d)
GEN_UNARY_TEST(xtn, 4h, 4s)
GEN_UNARY_TEST(xtn2, 8h, 4s)
GEN_UNARY_TEST(xtn, 8b, 8h)
GEN_UNARY_TEST(xtn2, 16b, 8h)
// ======================== MEM ========================
// All the SIMD and FP memory tests are in none/tests/arm64/memory.c.
// ======================== CRYPTO ========================
// These tests are believed to be correct but are disabled because
// GNU assembler (GNU Binutils) 2.24.0.20140311 Linaro 2014.03
// cannot be persuaded to accept those instructions (AFAICT).
//GEN_TWOVEC_TEST(aesd_16b_16b, "aesd v6.16b, v27.16b", 6, 27)
//GEN_TWOVEC_TEST(aese_16b_16b, "aese v6.16b, v27.16b", 6, 27)
//GEN_TWOVEC_TEST(aesimc_16b_16b, "aesimc v6.16b, v27.16b", 6, 27)
//GEN_TWOVEC_TEST(aesmc_16b_16b, "aesmc v6.16b, v27.16b", 6, 27)
//
//GEN_THREEVEC_TEST(sha1c_q_s_4s, "sha1c q29, s28, v27.4s", 29,28,27)
//GEN_TWOVEC_TEST(sha1h_s_s, "sha1h s6, s27", 6, 27)
//GEN_THREEVEC_TEST(sha1m_q_s_4s, "sha1m q29, s28, v27.4s", 29,28,27)
//GEN_THREEVEC_TEST(sha1p_q_s_4s, "sha1p q29, s28, v27.4s", 29,28,27)
//GEN_THREEVEC_TEST(sha1su0_4s_4s_4s, "sha1su0 v29.4s, v28.4s, v27.4s", 29,28,27)
//GEN_TWOVEC_TEST(sha1su1_4s_4s, "sha1su1 v6.4s, v27.4s", 6, 27)
//
//GEN_THREEVEC_TEST(sha256h2_q_q_4s, "sha256h2 q29, q28, v27.4s", 29,28,27)
//GEN_THREEVEC_TEST(sha256h_q_q_4s, "sha256h q29, q28, v27.4s", 29,28,27)
//GEN_TWOVEC_TEST(sha256su0_4s_4s, "sha256su0 v6.4s, v27.4s", 6, 27)
//GEN_THREEVEC_TEST(sha256su1_4s_4s_4s, "sha256su1 v29.4s, v28.4s, v27.4s",
// 29,28,27)
/* ---------------------------------------------------------------- */
/* -- main() -- */
/* ---------------------------------------------------------------- */
int main ( void )
{
assert(sizeof(V128) == 16);
// ======================== FP ========================
// fabs d,s
// fabs 2d,4s,2s
if (1) test_fabs_d_d(TyDF);
if (1) test_fabs_s_s(TySF);
if (1) test_fabs_2d_2d(TyDF);
if (1) test_fabs_4s_4s(TySF);
if (1) test_fabs_2s_2s(TyDF);
// fneg d,s
// fneg 2d,4s,2s
if (1) test_fneg_d_d(TyDF);
if (1) test_fneg_s_s(TySF);
if (1) test_fneg_2d_2d(TySF);
if (1) test_fneg_4s_4s(TyDF);
if (1) test_fneg_2s_2s(TySF);
// fsqrt d,s
// fsqrt 2d,4s,2s
if (1) test_fsqrt_d_d(TyDF);
if (1) test_fsqrt_s_s(TySF);
if (1) test_fsqrt_2d_2d(TySF);
if (1) test_fsqrt_4s_4s(TyDF);
if (1) test_fsqrt_2s_2s(TySF);
// fadd d,s
// fsub d,s
if (1) test_fadd_d_d_d(TyDF);
if (1) test_fadd_s_s_s(TySF);
if (1) test_fsub_d_d_d(TyDF);
if (1) test_fsub_s_s_s(TySF);
// fadd 2d,4s,2s
// fsub 2d,4s,2s
if (1) test_fadd_2d_2d_2d(TyDF);
if (1) test_fadd_4s_4s_4s(TySF);
if (1) test_fadd_2s_2s_2s(TySF);
if (1) test_fsub_2d_2d_2d(TyDF);
if (1) test_fsub_4s_4s_4s(TySF);
if (1) test_fsub_2s_2s_2s(TySF);
// fabd d,s
// fabd 2d,4s,2s
if (1) test_fabd_d_d_d(TyDF);
if (1) test_fabd_s_s_s(TySF);
if (1) test_fabd_2d_2d_2d(TyDF);
if (1) test_fabd_4s_4s_4s(TySF);
if (1) test_fabd_2s_2s_2s(TySF);
// faddp d,s (floating add pair)
// faddp 2d,4s,2s
if (1) test_faddp_d_2d(TyDF);
if (1) test_faddp_s_2s(TySF);
if (1) test_faddp_2d_2d_2d(TySF);
if (1) test_faddp_4s_4s_4s(TyDF);
if (1) test_faddp_2s_2s_2s(TySF);
// fccmp d,s (floating point conditional quiet compare)
// fccmpe d,s (floating point conditional signaling compare)
if (1) DO50( test_FCCMP_D_D_0xF_EQ() );
if (1) DO50( test_FCCMP_D_D_0xF_NE() );
if (1) DO50( test_FCCMP_D_D_0x0_EQ() );
if (1) DO50( test_FCCMP_D_D_0x0_NE() );
if (1) DO50( test_FCCMP_S_S_0xF_EQ() );
if (1) DO50( test_FCCMP_S_S_0xF_NE() );
if (1) DO50( test_FCCMP_S_S_0x0_EQ() );
if (1) DO50( test_FCCMP_S_S_0x0_NE() );
if (1) DO50( test_FCCMPE_D_D_0xF_EQ() );
if (1) DO50( test_FCCMPE_D_D_0xF_NE() );
if (1) DO50( test_FCCMPE_D_D_0x0_EQ() );
if (1) DO50( test_FCCMPE_D_D_0x0_NE() );
if (1) DO50( test_FCCMPE_S_S_0xF_EQ() );
if (1) DO50( test_FCCMPE_S_S_0xF_NE() );
if (1) DO50( test_FCCMPE_S_S_0x0_EQ() );
if (1) DO50( test_FCCMPE_S_S_0x0_NE() );
// fcmeq d,s
// fcmge d,s
// fcmgt d,s
// facgt d,s (floating abs compare GE)
// facge d,s (floating abs compare GE)
if (1) DO50( test_FCMEQ_D_D_D() );
if (1) DO50( test_FCMEQ_S_S_S() );
if (1) DO50( test_FCMGE_D_D_D() );
if (1) DO50( test_FCMGE_S_S_S() );
if (1) DO50( test_FCMGT_D_D_D() );
if (1) DO50( test_FCMGT_S_S_S() );
if (1) DO50( test_FACGT_D_D_D() );
if (1) DO50( test_FACGT_S_S_S() );
if (1) DO50( test_FACGE_D_D_D() );
if (1) DO50( test_FACGE_S_S_S() );
// fcmeq 2d,4s,2s
// fcmge 2d,4s,2s
// fcmgt 2d,4s,2s
// facge 2d,4s,2s
// facgt 2d,4s,2s
if (1) test_fcmeq_2d_2d_2d(TyDF);
if (1) test_fcmeq_4s_4s_4s(TySF);
if (1) test_fcmeq_2s_2s_2s(TySF);
if (1) test_fcmge_2d_2d_2d(TyDF);
if (1) test_fcmge_4s_4s_4s(TySF);
if (1) test_fcmge_2s_2s_2s(TySF);
if (1) test_fcmgt_2d_2d_2d(TyDF);
if (1) test_fcmgt_4s_4s_4s(TySF);
if (1) test_fcmgt_2s_2s_2s(TySF);
if (1) test_facge_2d_2d_2d(TyDF);
if (1) test_facge_4s_4s_4s(TySF);
if (1) test_facge_2s_2s_2s(TySF);
if (1) test_facgt_2d_2d_2d(TyDF);
if (1) test_facgt_4s_4s_4s(TySF);
if (1) test_facgt_2s_2s_2s(TySF);
// fcmeq_z d,s
// fcmge_z d,s
// fcmgt_z d,s
// fcmle_z d,s
// fcmlt_z d,s
if (1) DO50( test_FCMEQ_D_D_Z() );
if (1) DO50( test_FCMEQ_S_S_Z() );
if (1) DO50( test_FCMGE_D_D_Z() );
if (1) DO50( test_FCMGE_S_S_Z() );
if (1) DO50( test_FCMGT_D_D_Z() );
if (1) DO50( test_FCMGT_S_S_Z() );
if (1) DO50( test_FCMLE_D_D_Z() );
if (1) DO50( test_FCMLE_S_S_Z() );
if (1) DO50( test_FCMLT_D_D_Z() );
if (1) DO50( test_FCMLT_S_S_Z() );
// fcmeq_z 2d,4s,2s
// fcmge_z 2d,4s,2s
// fcmgt_z 2d,4s,2s
// fcmle_z 2d,4s,2s
// fcmlt_z 2d,4s,2s
if (1) test_fcmeq_z_2d_2d(TyDF);
if (1) test_fcmeq_z_4s_4s(TySF);
if (1) test_fcmeq_z_2s_2s(TySF);
if (1) test_fcmge_z_2d_2d(TyDF);
if (1) test_fcmge_z_4s_4s(TySF);
if (1) test_fcmge_z_2s_2s(TySF);
if (1) test_fcmgt_z_2d_2d(TyDF);
if (1) test_fcmgt_z_4s_4s(TySF);
if (1) test_fcmgt_z_2s_2s(TySF);
if (1) test_fcmle_z_2d_2d(TyDF);
if (1) test_fcmle_z_4s_4s(TySF);
if (1) test_fcmle_z_2s_2s(TySF);
if (1) test_fcmlt_z_2d_2d(TyDF);
if (1) test_fcmlt_z_4s_4s(TySF);
if (1) test_fcmlt_z_2s_2s(TySF);
// fcmp_z d,s
// fcmpe_z d,s
// fcmp d,s (floating point quiet, set flags)
// fcmpe d,s (floating point signaling, set flags)
if (1) DO50( test_FCMP_D_Z() );
if (1) DO50( test_FCMP_S_Z() );
if (1) DO50( test_FCMPE_D_Z() );
if (1) DO50( test_FCMPE_S_Z() );
if (1) DO50( test_FCMP_D_D() );
if (1) DO50( test_FCMP_S_S() );
if (1) DO50( test_FCMPE_D_D() );
if (1) DO50( test_FCMPE_S_S() );
// fcsel d,s (fp cond select)
if (1) DO50( test_FCSEL_D_D_D_EQ() );
if (1) DO50( test_FCSEL_D_D_D_NE() );
if (1) DO50( test_FCSEL_S_S_S_EQ() );
if (1) DO50( test_FCSEL_S_S_S_NE() );
// fdiv d,s
// fdiv 2d,4s,2s
if (1) test_fdiv_d_d_d(TyDF);
if (1) test_fdiv_s_s_s(TySF);
if (1) test_fdiv_2d_2d_2d(TyDF);
if (1) test_fdiv_4s_4s_4s(TySF);
if (1) test_fdiv_2s_2s_2s(TySF);
// fmadd d,s
// fnmadd d,s
// fmsub d,s
// fnmsub d,s
if (1) test_fmadd_d_d_d_d(TyDF);
if (1) test_fmadd_s_s_s_s(TySF);
if (1) test_fnmadd_d_d_d_d(TyDF);
if (1) test_fnmadd_s_s_s_s(TySF);
if (1) test_fmsub_d_d_d_d(TyDF);
if (1) test_fmsub_s_s_s_s(TySF);
if (1) test_fnmsub_d_d_d_d(TyDF);
if (1) test_fnmsub_s_s_s_s(TySF);
// fnmul d,s
if (1) test_fnmul_d_d_d(TyDF);
if (1) test_fnmul_s_s_s(TySF);
// fmax d,s
// fmin d,s
// fmaxnm d,s ("max number")
// fminnm d,s
if (1) test_fmax_d_d_d(TyDF);
if (1) test_fmax_s_s_s(TySF);
if (1) test_fmin_d_d_d(TyDF);
if (1) test_fmin_s_s_s(TySF);
if (1) test_fmaxnm_d_d_d(TyDF);
if (1) test_fmaxnm_s_s_s(TySF);
if (1) test_fminnm_d_d_d(TyDF);
if (1) test_fminnm_s_s_s(TySF);
// fmax 2d,4s,2s
// fmin 2d,4s,2s
// fmaxnm 2d,4s,2s
// fminnm 2d,4s,2s
if (1) test_fmax_2d_2d_2d(TyDF);
if (1) test_fmax_4s_4s_4s(TySF);
if (1) test_fmax_2s_2s_2s(TySF);
if (1) test_fmin_2d_2d_2d(TyDF);
if (1) test_fmin_4s_4s_4s(TySF);
if (1) test_fmin_2s_2s_2s(TySF);
if (1) test_fmaxnm_2d_2d_2d(TyDF);
if (1) test_fmaxnm_4s_4s_4s(TySF);
if (1) test_fmaxnm_2s_2s_2s(TySF);
if (1) test_fminnm_2d_2d_2d(TyDF);
if (1) test_fminnm_4s_4s_4s(TySF);
if (1) test_fminnm_2s_2s_2s(TySF);
// fmaxnmp d_2d,s_2s ("max number pairwise")
// fminnmp d_2d,s_2s
if (1) test_fmaxnmp_d_2d(TyDF);
if (1) test_fmaxnmp_s_2s(TySF);
if (1) test_fminnmp_d_2d(TyDF);
if (1) test_fminnmp_s_2s(TySF);
// fmaxnmp 2d,4s,2s
// fminnmp 2d,4s,2s
if (1) test_fmaxnmp_2d_2d_2d(TyDF);
if (1) test_fmaxnmp_4s_4s_4s(TySF);
if (1) test_fmaxnmp_2s_2s_2s(TySF);
if (1) test_fminnmp_2d_2d_2d(TyDF);
if (1) test_fminnmp_4s_4s_4s(TySF);
if (1) test_fminnmp_2s_2s_2s(TySF);
// fmaxnmv s_4s (maxnum across vector)
// fminnmv s_4s
if (1) test_fmaxnmv_s_4s(TySF);
if (1) test_fminnmv_s_4s(TySF);
// fmaxp d_2d,s_2s (max of a pair)
// fminp d_2d,s_2s (max of a pair)
if (1) test_fmaxp_d_2d(TyDF);
if (1) test_fmaxp_s_2s(TySF);
if (1) test_fminp_d_2d(TyDF);
if (1) test_fminp_s_2s(TySF);
// fmaxp 2d,4s,2s (max pairwise)
// fminp 2d,4s,2s
if (1) test_fmaxp_2d_2d_2d(TyDF);
if (1) test_fmaxp_4s_4s_4s(TySF);
if (1) test_fmaxp_2s_2s_2s(TySF);
if (1) test_fminp_2d_2d_2d(TyDF);
if (1) test_fminp_4s_4s_4s(TySF);
if (1) test_fminp_2s_2s_2s(TySF);
// fmaxv s_4s (max across vector)
// fminv s_4s
if (1) test_fmaxv_s_4s(TySF);
if (1) test_fminv_s_4s(TySF);
// fmla 2d,4s,2s
// fmls 2d,4s,2s
if (1) test_fmla_2d_2d_2d(TyDF);
if (1) test_fmla_4s_4s_4s(TySF);
if (1) test_fmla_2s_2s_2s(TySF);
if (1) test_fmls_2d_2d_2d(TyDF);
if (1) test_fmls_4s_4s_4s(TySF);
if (1) test_fmls_2s_2s_2s(TySF);
// fmla d_d_d[],s_s_s[] (by element)
// fmls d_d_d[],s_s_s[] (by element)
if (1) test_fmla_d_d_d0(TyDF);
if (1) test_fmla_d_d_d1(TyDF);
if (1) test_fmla_s_s_s0(TySF);
if (1) test_fmla_s_s_s3(TySF);
if (1) test_fmls_d_d_d0(TyDF);
if (1) test_fmls_d_d_d1(TyDF);
if (1) test_fmls_s_s_s0(TySF);
if (1) test_fmls_s_s_s3(TySF);
// fmla 2d_2d_d[],4s_4s_s[],2s_2s_s[]
// fmls 2d_2d_d[],4s_4s_s[],2s_2s_s[]
if (1) test_fmla_2d_2d_d0(TyDF);
if (1) test_fmla_2d_2d_d1(TyDF);
if (1) test_fmla_4s_4s_s0(TySF);
if (1) test_fmla_4s_4s_s3(TySF);
if (1) test_fmla_2s_2s_s0(TySF);
if (1) test_fmla_2s_2s_s3(TySF);
if (1) test_fmls_2d_2d_d0(TyDF);
if (1) test_fmls_2d_2d_d1(TyDF);
if (1) test_fmls_4s_4s_s0(TySF);
if (1) test_fmls_4s_4s_s3(TySF);
if (1) test_fmls_2s_2s_s0(TySF);
if (1) test_fmls_2s_2s_s3(TySF);
// fmov 2d,4s,2s #imm (part of the MOVI/MVNI/ORR/BIC imm group)
if (1) test_fmov_2d_imm_01(TyD);
if (1) test_fmov_2d_imm_02(TyD);
if (1) test_fmov_2d_imm_03(TyD);
if (1) test_fmov_4s_imm_01(TyS);
if (1) test_fmov_4s_imm_02(TyS);
if (1) test_fmov_4s_imm_03(TyS);
if (1) test_fmov_2s_imm_01(TyS);
if (1) test_fmov_2s_imm_02(TyS);
if (1) test_fmov_2s_imm_03(TyS);
// fmov d_d,s_s
if (1) test_fmov_d_d(TyDF);
if (1) test_fmov_s_s(TySF);
// fmov s_w,w_s,d_x,d[1]_x,x_d,x_d[1]
if (1) test_fmov_s_w(TyS);
if (1) test_fmov_d_x(TyD);
if (1) test_fmov_d1_x(TyD);
if (1) test_fmov_w_s(TyS);
if (1) test_fmov_x_d(TyD);
if (1) test_fmov_x_d1(TyD);
// fmov d,s #imm
if (1) test_fmov_d_imm_01(TyNONE);
if (1) test_fmov_d_imm_02(TyNONE);
if (1) test_fmov_d_imm_03(TyNONE);
if (1) test_fmov_s_imm_01(TyNONE);
if (1) test_fmov_s_imm_02(TyNONE);
if (1) test_fmov_s_imm_03(TyNONE);
// fmul d_d_d[],s_s_s[]
if (1) test_fmul_d_d_d0(TyDF);
if (1) test_fmul_d_d_d1(TyDF);
if (1) test_fmul_s_s_s0(TySF);
if (1) test_fmul_s_s_s3(TySF);
// fmul 2d_2d_d[],4s_4s_s[],2s_2s_s[]
if (1) test_fmul_2d_2d_d0(TyDF);
if (1) test_fmul_2d_2d_d1(TyDF);
if (1) test_fmul_4s_4s_s0(TySF);
if (1) test_fmul_4s_4s_s3(TySF);
if (1) test_fmul_2s_2s_s0(TySF);
if (1) test_fmul_2s_2s_s3(TySF);
// fmul d,s
// fmul 2d,4s,2s
if (1) test_fmul_d_d_d(TyDF);
if (1) test_fmul_s_s_s(TySF);
if (1) test_fmul_2d_2d_2d(TyDF);
if (1) test_fmul_4s_4s_4s(TySF);
if (1) test_fmul_2s_2s_2s(TySF);
// fmulx d_d_d[],s_s_s[]
// fmulx 2d_2d_d[],4s_4s_s[],2s_2s_s[]
if (1) test_fmulx_d_d_d0(TyDF);
if (1) test_fmulx_d_d_d1(TyDF);
if (1) test_fmulx_s_s_s0(TySF);
if (1) test_fmulx_s_s_s3(TySF);
if (1) test_fmulx_2d_2d_d0(TyDF);
if (1) test_fmulx_2d_2d_d1(TyDF);
if (1) test_fmulx_4s_4s_s0(TySF);
if (1) test_fmulx_4s_4s_s3(TySF);
if (1) test_fmulx_2s_2s_s0(TySF);
if (1) test_fmulx_2s_2s_s3(TySF);
// fmulx d,s
// fmulx 2d,4s,2s
if (1) test_fmulx_d_d_d(TyDF);
if (1) test_fmulx_s_s_s(TySF);
if (1) test_fmulx_2d_2d_2d(TyDF);
if (1) test_fmulx_4s_4s_4s(TySF);
if (1) test_fmulx_2s_2s_2s(TySF);
// frecpe d,s (recip estimate)
// frecpe 2d,4s,2s
if (1) test_frecpe_d_d(TyDF);
if (1) test_frecpe_s_s(TySF);
if (1) test_frecpe_2d_2d(TyDF);
if (1) test_frecpe_4s_4s(TySF);
if (1) test_frecpe_2s_2s(TySF);
// frecps d,s (recip step)
// frecps 2d,4s,2s
if (1) test_frecps_d_d_d(TyDF);
if (1) test_frecps_s_s_s(TySF);
if (1) test_frecps_2d_2d_2d(TyDF);
if (1) test_frecps_4s_4s_4s(TySF);
if (1) test_frecps_2s_2s_2s(TySF);
// frecpx d,s (recip exponent)
if (1) test_frecpx_d_d(TyDF);
if (1) test_frecpx_s_s(TySF);
// frinta d,s
// frinti d,s
// frintm d,s
// frintn d,s
// frintp d,s
// frintx d,s
// frintz d,s
if (1) test_frinta_d_d(TyDF);
if (1) test_frinta_s_s(TySF);
if (1) test_frinti_d_d(TyDF);
if (1) test_frinti_s_s(TySF);
if (1) test_frintm_d_d(TyDF);
if (1) test_frintm_s_s(TySF);
if (1) test_frintn_d_d(TyDF);
if (1) test_frintn_s_s(TySF);
if (1) test_frintp_d_d(TyDF);
if (1) test_frintp_s_s(TySF);
if (1) test_frintx_d_d(TyDF);
if (1) test_frintx_s_s(TySF);
if (1) test_frintz_d_d(TyDF);
if (1) test_frintz_s_s(TySF);
// frinta 2d,4s,2s (round to integral, nearest away)
// frinti 2d,4s,2s (round to integral, per FPCR)
// frintm 2d,4s,2s (round to integral, minus inf)
// frintn 2d,4s,2s (round to integral, nearest, to even)
// frintp 2d,4s,2s (round to integral, plus inf)
// frintx 2d,4s,2s (round to integral exact, per FPCR)
// frintz 2d,4s,2s (round to integral, zero)
if (1) test_frinta_2d_2d(TyDF);
if (1) test_frinta_4s_4s(TySF);
if (1) test_frinta_2s_2s(TySF);
if (1) test_frinti_2d_2d(TyDF);
if (1) test_frinti_4s_4s(TySF);
if (1) test_frinti_2s_2s(TySF);
if (1) test_frintm_2d_2d(TyDF);
if (1) test_frintm_4s_4s(TySF);
if (1) test_frintm_2s_2s(TySF);
if (1) test_frintn_2d_2d(TyDF);
if (1) test_frintn_4s_4s(TySF);
if (1) test_frintn_2s_2s(TySF);
if (1) test_frintp_2d_2d(TyDF);
if (1) test_frintp_4s_4s(TySF);
if (1) test_frintp_2s_2s(TySF);
if (1) test_frintx_2d_2d(TyDF);
if (1) test_frintx_4s_4s(TySF);
if (1) test_frintx_2s_2s(TySF);
if (1) test_frintz_2d_2d(TyDF);
if (1) test_frintz_4s_4s(TySF);
if (1) test_frintz_2s_2s(TySF);
// frsqrte d,s (est)
// frsqrte 2d,4s,2s
if (1) test_frsqrte_d_d(TyDF);
if (1) test_frsqrte_s_s(TySF);
if (1) test_frsqrte_2d_2d(TyDF);
if (1) test_frsqrte_4s_4s(TySF);
if (1) test_frsqrte_2s_2s(TySF);
// frsqrts d,s (step)
// frsqrts 2d,4s,2s
if (1) test_frsqrts_d_d_d(TyDF);
if (1) test_frsqrts_s_s_s(TySF);
if (1) test_frsqrts_2d_2d_2d(TyDF);
if (1) test_frsqrts_4s_4s_4s(TySF);
if (1) test_frsqrts_2s_2s_2s(TySF);
// ======================== CONV ========================
// fcvt s_h,d_h,h_s,d_s,h_d,s_d (fp convert, scalar)
if (1) test_fcvt_s_h(TyHF);
if (1) test_fcvt_d_h(TyHF);
if (1) test_fcvt_h_s(TySF);
if (1) test_fcvt_d_s(TySF);
if (1) test_fcvt_h_d(TyDF);
if (1) test_fcvt_s_d(TyDF);
// fcvtl{2} 4s/4h, 4s/8h, 2d/2s, 2d/4s (float convert to longer form)
if (1) test_fcvtl_4s_4h(TyHF);
if (1) test_fcvtl_4s_8h(TyHF);
if (1) test_fcvtl_2d_2s(TySF);
if (1) test_fcvtl_2d_4s(TySF);
// fcvtn{2} 4h/4s, 8h/4s, 2s/2d, 4s/2d (float convert to narrower form)
if (1) test_fcvtn_4h_4s(TySF);
if (1) test_fcvtn_8h_4s(TySF);
if (1) test_fcvtn_2s_2d(TyDF);
if (1) test_fcvtn_4s_2d(TyDF);
// fcvtas d,s (fcvt to signed int, nearest, ties away)
// fcvtau d,s (fcvt to unsigned int, nearest, ties away)
// fcvtas 2d,4s,2s
// fcvtau 2d,4s,2s
// fcvtas w_s,x_s,w_d,x_d
// fcvtau w_s,x_s,w_d,x_d
if (1) test_fcvtas_d_d(TyDF);
if (1) test_fcvtau_d_d(TyDF);
if (1) test_fcvtas_s_s(TySF);
if (1) test_fcvtau_s_s(TySF);
if (1) test_fcvtas_2d_2d(TyDF);
if (1) test_fcvtau_2d_2d(TyDF);
if (1) test_fcvtas_4s_4s(TySF);
if (1) test_fcvtau_4s_4s(TySF);
if (1) test_fcvtas_2s_2s(TySF);
if (1) test_fcvtau_2s_2s(TySF);
if (1) test_fcvtas_w_s(TySF);
if (1) test_fcvtau_w_s(TySF);
if (1) test_fcvtas_x_s(TySF);
if (1) test_fcvtau_x_s(TySF);
if (1) test_fcvtas_w_d(TyDF);
if (1) test_fcvtau_w_d(TyDF);
if (1) test_fcvtas_x_d(TyDF);
if (1) test_fcvtau_x_d(TyDF);
// fcvtms d,s (fcvt to signed int, minus inf)
// fcvtmu d,s (fcvt to unsigned int, minus inf)
// fcvtms 2d,4s,2s
// fcvtmu 2d,4s,2s
// fcvtms w_s,x_s,w_d,x_d
// fcvtmu w_s,x_s,w_d,x_d
if (1) test_fcvtms_d_d(TyDF);
if (1) test_fcvtmu_d_d(TyDF);
if (1) test_fcvtms_s_s(TySF);
if (1) test_fcvtmu_s_s(TySF);
if (1) test_fcvtms_2d_2d(TyDF);
if (1) test_fcvtmu_2d_2d(TyDF);
if (1) test_fcvtms_4s_4s(TySF);
if (1) test_fcvtmu_4s_4s(TySF);
if (1) test_fcvtms_2s_2s(TySF);
if (1) test_fcvtmu_2s_2s(TySF);
if (1) test_fcvtms_w_s(TySF);
if (1) test_fcvtmu_w_s(TySF);
if (1) test_fcvtms_x_s(TySF);
if (1) test_fcvtmu_x_s(TySF);
if (1) test_fcvtms_w_d(TyDF);
if (1) test_fcvtmu_w_d(TyDF);
if (1) test_fcvtms_x_d(TyDF);
if (1) test_fcvtmu_x_d(TyDF);
// fcvtns d,s (fcvt to signed int, nearest)
// fcvtnu d,s (fcvt to unsigned int, nearest)
// fcvtns 2d,4s,2s
// fcvtnu 2d,4s,2s
// fcvtns w_s,x_s,w_d,x_d
// fcvtnu w_s,x_s,w_d,x_d
if (1) test_fcvtns_d_d(TyDF);
if (1) test_fcvtnu_d_d(TyDF);
if (1) test_fcvtns_s_s(TySF);
if (1) test_fcvtnu_s_s(TySF);
if (1) test_fcvtns_2d_2d(TyDF);
if (1) test_fcvtnu_2d_2d(TyDF);
if (1) test_fcvtns_4s_4s(TySF);
if (1) test_fcvtnu_4s_4s(TySF);
if (1) test_fcvtns_2s_2s(TySF);
if (1) test_fcvtnu_2s_2s(TySF);
if (1) test_fcvtns_w_s(TySF);
if (1) test_fcvtnu_w_s(TySF);
if (1) test_fcvtns_x_s(TySF);
if (1) test_fcvtnu_x_s(TySF);
if (1) test_fcvtns_w_d(TyDF);
if (1) test_fcvtnu_w_d(TyDF);
if (1) test_fcvtns_x_d(TyDF);
if (1) test_fcvtnu_x_d(TyDF);
// fcvtps d,s (fcvt to signed int, plus inf)
// fcvtpu d,s (fcvt to unsigned int, plus inf)
// fcvtps 2d,4s,2s
// fcvtpu 2d,4s,2s
// fcvtps w_s,x_s,w_d,x_d
// fcvtpu w_s,x_s,w_d,x_d
if (1) test_fcvtps_d_d(TyDF);
if (1) test_fcvtpu_d_d(TyDF);
if (1) test_fcvtps_s_s(TySF);
if (1) test_fcvtpu_s_s(TySF);
if (1) test_fcvtps_2d_2d(TyDF);
if (1) test_fcvtpu_2d_2d(TyDF);
if (1) test_fcvtps_4s_4s(TySF);
if (1) test_fcvtpu_4s_4s(TySF);
if (1) test_fcvtps_2s_2s(TySF);
if (1) test_fcvtpu_2s_2s(TySF);
if (1) test_fcvtps_w_s(TySF);
if (1) test_fcvtpu_w_s(TySF);
if (1) test_fcvtps_x_s(TySF);
if (1) test_fcvtpu_x_s(TySF);
if (1) test_fcvtps_w_d(TyDF);
if (1) test_fcvtpu_w_d(TyDF);
if (1) test_fcvtps_x_d(TyDF);
if (1) test_fcvtpu_x_d(TyDF);
// fcvtzs d,s (fcvt to signed integer, to zero)
// fcvtzu d,s (fcvt to unsigned integer, to zero)
// fcvtzs 2d,4s,2s
// fcvtzu 2d,4s,2s
// fcvtzs w_s,x_s,w_d,x_d
// fcvtzu w_s,x_s,w_d,x_d
if (1) test_fcvtzs_d_d(TyDF);
if (1) test_fcvtzu_d_d(TyDF);
if (1) test_fcvtzs_s_s(TySF);
if (1) test_fcvtzu_s_s(TySF);
if (1) test_fcvtzs_2d_2d(TyDF);
if (1) test_fcvtzu_2d_2d(TyDF);
if (1) test_fcvtzs_4s_4s(TySF);
if (1) test_fcvtzu_4s_4s(TySF);
if (1) test_fcvtzs_2s_2s(TySF);
if (1) test_fcvtzu_2s_2s(TySF);
if (1) test_fcvtzs_w_s(TySF);
if (1) test_fcvtzu_w_s(TySF);
if (1) test_fcvtzs_x_s(TySF);
if (1) test_fcvtzu_x_s(TySF);
if (1) test_fcvtzs_w_d(TyDF);
if (1) test_fcvtzu_w_d(TyDF);
if (1) test_fcvtzs_x_d(TyDF);
if (1) test_fcvtzu_x_d(TyDF);
// fcvtzs d,s (fcvt to signed fixedpt, to zero) (w/ #fbits)
// fcvtzu d,s (fcvt to unsigned fixedpt, to zero) (w/ #fbits)
// fcvtzs 2d,4s,2s (fcvt to signed fixedpt, to zero) (w/ #fbits)
// fcvtzu 2d,4s,2s (fcvt to unsigned fixedpt, to zero) (w/ #fbits)
// fcvtzs w_s,x_s,w_d,x_d (fcvt to signed fixedpt, to zero) (w/ #fbits)
// fcvtzu w_s,x_s,w_d,x_d (fcvt to unsigned fixedpt, to zero) (w/ #fbits)
if (1) test_fcvtzs_d_d_fbits1(TyDF);
if (1) test_fcvtzs_d_d_fbits32(TyDF);
if (1) test_fcvtzs_d_d_fbits64(TyDF);
if (1) test_fcvtzu_d_d_fbits1(TyDF);
if (1) test_fcvtzu_d_d_fbits32(TyDF);
if (1) test_fcvtzu_d_d_fbits64(TyDF);
if (1) test_fcvtzs_s_s_fbits1(TySF);
if (1) test_fcvtzs_s_s_fbits16(TySF);
if (1) test_fcvtzs_s_s_fbits32(TySF);
if (1) test_fcvtzu_s_s_fbits1(TySF);
if (1) test_fcvtzu_s_s_fbits16(TySF);
if (1) test_fcvtzu_s_s_fbits32(TySF);
if (1) test_fcvtzs_2d_2d_fbits1(TyDF);
if (1) test_fcvtzs_2d_2d_fbits32(TyDF);
if (1) test_fcvtzs_2d_2d_fbits64(TyDF);
if (1) test_fcvtzu_2d_2d_fbits1(TyDF);
if (1) test_fcvtzu_2d_2d_fbits32(TyDF);
if (1) test_fcvtzu_2d_2d_fbits64(TyDF);
if (1) test_fcvtzs_4s_4s_fbits1(TySF);
if (1) test_fcvtzs_4s_4s_fbits16(TySF);
if (1) test_fcvtzs_4s_4s_fbits32(TySF);
if (1) test_fcvtzu_4s_4s_fbits1(TySF);
if (1) test_fcvtzu_4s_4s_fbits16(TySF);
if (1) test_fcvtzu_4s_4s_fbits32(TySF);
if (1) test_fcvtzs_2s_2s_fbits1(TySF);
if (1) test_fcvtzs_2s_2s_fbits16(TySF);
if (1) test_fcvtzs_2s_2s_fbits32(TySF);
if (1) test_fcvtzu_2s_2s_fbits1(TySF);
if (1) test_fcvtzu_2s_2s_fbits16(TySF);
if (1) test_fcvtzu_2s_2s_fbits32(TySF);
if (1) test_fcvtzs_w_s_fbits1(TySF);
if (1) test_fcvtzs_w_s_fbits16(TySF);
if (1) test_fcvtzs_w_s_fbits32(TySF);
if (1) test_fcvtzu_w_s_fbits1(TySF);
if (1) test_fcvtzu_w_s_fbits16(TySF);
if (1) test_fcvtzu_w_s_fbits32(TySF);
if (1) test_fcvtzs_x_s_fbits1(TySF);
if (1) test_fcvtzs_x_s_fbits32(TySF);
if (1) test_fcvtzs_x_s_fbits64(TySF);
if (1) test_fcvtzu_x_s_fbits1(TySF);
if (1) test_fcvtzu_x_s_fbits32(TySF);
if (1) test_fcvtzu_x_s_fbits64(TySF);
if (1) test_fcvtzs_w_d_fbits1(TyDF);
if (1) test_fcvtzs_w_d_fbits16(TyDF);
if (1) test_fcvtzs_w_d_fbits32(TyDF);
if (1) test_fcvtzu_w_d_fbits1(TyDF);
if (1) test_fcvtzu_w_d_fbits16(TyDF);
if (1) test_fcvtzu_w_d_fbits32(TyDF);
if (1) test_fcvtzs_x_d_fbits1(TyDF);
if (1) test_fcvtzs_x_d_fbits32(TyDF);
if (1) test_fcvtzs_x_d_fbits64(TyDF);
if (1) test_fcvtzu_x_d_fbits1(TyDF);
if (1) test_fcvtzu_x_d_fbits32(TyDF);
if (1) test_fcvtzu_x_d_fbits64(TyDF);
// fcvtxn s_d (fcvt to lower prec narrow, rounding to odd)
// fcvtxn 2s_2d,4s_2d
if (1) test_fcvtxn_s_d(TyDF);
if (1) test_fcvtxn_2s_2d(TyDF);
if (1) test_fcvtxn_4s_2d(TyDF);
// scvtf d,s _#fbits
// ucvtf d,s _#fbits
// scvtf 2d,4s,2s _#fbits
// ucvtf 2d,4s,2s _#fbits
if (1) test_scvtf_d_d_fbits1(TyD);
if (1) test_scvtf_d_d_fbits32(TyD);
if (1) test_scvtf_d_d_fbits64(TyD);
if (1) test_ucvtf_d_d_fbits1(TyD);
if (1) test_ucvtf_d_d_fbits32(TyD);
if (1) test_ucvtf_d_d_fbits64(TyD);
if (1) test_scvtf_s_s_fbits1(TyS);
if (1) test_scvtf_s_s_fbits16(TyS);
if (1) test_scvtf_s_s_fbits32(TyS);
if (1) test_ucvtf_s_s_fbits1(TyS);
if (1) test_ucvtf_s_s_fbits16(TyS);
if (1) test_ucvtf_s_s_fbits32(TyS);
if (1) test_scvtf_2d_2d_fbits1(TyD);
if (1) test_scvtf_2d_2d_fbits32(TyD);
if (1) test_scvtf_2d_2d_fbits64(TyD);
if (1) test_ucvtf_2d_2d_fbits1(TyD);
if (1) test_ucvtf_2d_2d_fbits32(TyD);
if (1) test_ucvtf_2d_2d_fbits64(TyD);
if (1) test_scvtf_4s_4s_fbits1(TyS);
if (1) test_scvtf_4s_4s_fbits16(TyS);
if (1) test_scvtf_4s_4s_fbits32(TyS);
if (1) test_ucvtf_4s_4s_fbits1(TyS);
if (1) test_ucvtf_4s_4s_fbits16(TyS);
if (1) test_ucvtf_4s_4s_fbits32(TyS);
if (1) test_scvtf_2s_2s_fbits1(TyS);
if (1) test_scvtf_2s_2s_fbits16(TyS);
if (1) test_scvtf_2s_2s_fbits32(TyS);
if (1) test_ucvtf_2s_2s_fbits1(TyS);
if (1) test_ucvtf_2s_2s_fbits16(TyS);
if (1) test_ucvtf_2s_2s_fbits32(TyS);
// scvtf d,s
// ucvtf d,s
// scvtf 2d,4s,2s
// ucvtf 2d,4s,2s
if (1) test_scvtf_d_d(TyD);
if (1) test_ucvtf_d_d(TyD);
if (1) test_scvtf_s_s(TyS);
if (1) test_ucvtf_s_s(TyS);
if (1) test_scvtf_2d_2d(TyD);
if (1) test_ucvtf_2d_2d(TyD);
if (1) test_scvtf_4s_4s(TyS);
if (1) test_ucvtf_4s_4s(TyS);
if (1) test_scvtf_2s_2s(TyS);
if (1) test_ucvtf_2s_2s(TyS);
// scvtf s_w, d_w, s_x, d_x, _#fbits
// ucvtf s_w, d_w, s_x, d_x, _#fbits
if (1) test_scvtf_s_w_fbits1(TyS);
if (1) test_scvtf_s_w_fbits16(TyS);
if (1) test_scvtf_s_w_fbits32(TyS);
if (1) test_scvtf_d_w_fbits1(TyS);
if (1) test_scvtf_d_w_fbits16(TyS);
if (1) test_scvtf_d_w_fbits32(TyS);
if (1) test_scvtf_s_x_fbits1(TyD);
if (1) test_scvtf_s_x_fbits32(TyD);
if (1) test_scvtf_s_x_fbits64(TyD);
if (1) test_scvtf_d_x_fbits1(TyD);
if (1) test_scvtf_d_x_fbits32(TyD);
if (1) test_scvtf_d_x_fbits64(TyD);
if (1) test_ucvtf_s_w_fbits1(TyS);
if (1) test_ucvtf_s_w_fbits16(TyS);
if (1) test_ucvtf_s_w_fbits32(TyS);
if (1) test_ucvtf_d_w_fbits1(TyS);
if (1) test_ucvtf_d_w_fbits16(TyS);
if (1) test_ucvtf_d_w_fbits32(TyS);
if (1) test_ucvtf_s_x_fbits1(TyD);
if (1) test_ucvtf_s_x_fbits32(TyD);
if (1) test_ucvtf_s_x_fbits64(TyD);
if (1) test_ucvtf_d_x_fbits1(TyD);
if (1) test_ucvtf_d_x_fbits32(TyD);
if (1) test_ucvtf_d_x_fbits64(TyD);
// scvtf s_w, d_w, s_x, d_x
// ucvtf s_w, d_w, s_x, d_x
if (1) test_scvtf_s_w(TyS);
if (1) test_scvtf_d_w(TyS);
if (1) test_scvtf_s_x(TyD);
if (1) test_scvtf_d_x(TyD);
if (1) test_ucvtf_s_w(TyS);
if (1) test_ucvtf_d_w(TyS);
if (1) test_ucvtf_s_x(TyD);
if (1) test_ucvtf_d_x(TyD);
// ======================== INT ========================
// abs d
// neg d
if (1) test_abs_d_d(TyD);
if (1) test_neg_d_d(TyD);
// abs 2d,4s,2s,8h,4h,16b,8b
// neg 2d,4s,2s,8h,4h,16b,8b
if (1) test_abs_2d_2d(TyD);
if (1) test_abs_4s_4s(TyS);
if (1) test_abs_2s_2s(TyS);
if (1) test_abs_8h_8h(TyH);
if (1) test_abs_4h_4h(TyH);
if (1) test_abs_16b_16b(TyB);
if (1) test_abs_8b_8b(TyB);
if (1) test_neg_2d_2d(TyD);
if (1) test_neg_4s_4s(TyS);
if (1) test_neg_2s_2s(TyS);
if (1) test_neg_8h_8h(TyH);
if (1) test_neg_4h_4h(TyH);
if (1) test_neg_16b_16b(TyB);
if (1) test_neg_8b_8b(TyB);
// add d
// sub d
if (1) test_add_d_d_d(TyD);
if (1) test_sub_d_d_d(TyD);
// add 2d,4s,2s,8h,4h,16b,8b
// sub 2d,4s,2s,8h,4h,16b,8b
if (1) test_add_2d_2d_2d(TyD);
if (1) test_add_4s_4s_4s(TyS);
if (1) test_add_2s_2s_2s(TyS);
if (1) test_add_8h_8h_8h(TyH);
if (1) test_add_4h_4h_4h(TyH);
if (1) test_add_16b_16b_16b(TyB);
if (1) test_add_8b_8b_8b(TyB);
if (1) test_sub_2d_2d_2d(TyD);
if (1) test_sub_4s_4s_4s(TyS);
if (1) test_sub_2s_2s_2s(TyS);
if (1) test_sub_8h_8h_8h(TyH);
if (1) test_sub_4h_4h_4h(TyH);
if (1) test_sub_16b_16b_16b(TyB);
if (1) test_sub_8b_8b_8b(TyB);
// addhn{2} 2s/4s_2d_2d, 4h/8h_4s_4s, 8b/16b_8h_8h
// subhn{2} 2s/4s_2d_2d, 4h/8h_4s_4s, 8b/16b_8h_8h
// raddhn{2} 2s/4s_2d_2d, 4h/8h_4s_4s, 8b/16b_8h_8h
// rsubhn{2} 2s/4s_2d_2d, 4h/8h_4s_4s, 8b/16b_8h_8h
if (1) test_addhn_2s_2d_2d(TyD);
if (1) test_addhn2_4s_2d_2d(TyD);
if (1) test_addhn_4h_4s_4s(TyS);
if (1) test_addhn2_8h_4s_4s(TyS);
if (1) test_addhn_8b_8h_8h(TyH);
if (1) test_addhn2_16b_8h_8h(TyH);
if (1) test_subhn_2s_2d_2d(TyD);
if (1) test_subhn2_4s_2d_2d(TyD);
if (1) test_subhn_4h_4s_4s(TyS);
if (1) test_subhn2_8h_4s_4s(TyS);
if (1) test_subhn_8b_8h_8h(TyH);
if (1) test_subhn2_16b_8h_8h(TyH);
if (1) test_raddhn_2s_2d_2d(TyD);
if (1) test_raddhn2_4s_2d_2d(TyD);
if (1) test_raddhn_4h_4s_4s(TyS);
if (1) test_raddhn2_8h_4s_4s(TyS);
if (1) test_raddhn_8b_8h_8h(TyH);
if (1) test_raddhn2_16b_8h_8h(TyH);
if (1) test_rsubhn_2s_2d_2d(TyD);
if (1) test_rsubhn2_4s_2d_2d(TyD);
if (1) test_rsubhn_4h_4s_4s(TyS);
if (1) test_rsubhn2_8h_4s_4s(TyS);
if (1) test_rsubhn_8b_8h_8h(TyH);
if (1) test_rsubhn2_16b_8h_8h(TyH);
// addp d (add pairs, across)
if (1) test_addp_d_2d(TyD);
// addp 2d,4s,2s,8h,4h,16b,8b
if (1) test_addp_2d_2d_2d(TyD);
if (1) test_addp_4s_4s_4s(TyS);
if (1) test_addp_2s_2s_2s(TyS);
if (1) test_addp_8h_8h_8h(TyH);
if (1) test_addp_4h_4h_4h(TyH);
if (1) test_addp_16b_16b_16b(TyB);
if (1) test_addp_8b_8b_8b(TyB);
// addv 4s,8h,4h,16b,18b (reduce across vector)
if (1) test_addv_s_4s(TyS);
if (1) test_addv_h_8h(TyH);
if (1) test_addv_h_4h(TyH);
if (1) test_addv_b_16b(TyB);
if (1) test_addv_b_8b(TyB);
// and 16b,8b
// bic 16b,8b
// orn 16b,8b
// orr 16b,8b
if (1) test_and_16b_16b_16b(TyB);
if (1) test_and_8b_8b_8b(TyB);
if (1) test_bic_16b_16b_16b(TyB);
if (1) test_bic_8b_8b_8b(TyB);
if (1) test_orr_16b_16b_16b(TyB);
if (1) test_orr_8b_8b_8b(TyB);
if (1) test_orn_16b_16b_16b(TyB);
if (1) test_orn_8b_8b_8b(TyB);
// orr 8h,4h #imm8, LSL #0 or 8
// orr 4s,2s #imm8, LSL #0, 8, 16 or 24
// bic 8h,4h #imm8, LSL #0 or 8
// bic 4s,2s #imm8, LSL #0, 8, 16 or 24
// movi and mvni are very similar, a superset of these.
// Cases are below.
if (1) test_orr_8h_0x5A_lsl0(TyH);
if (1) test_orr_8h_0xA5_lsl8(TyH);
if (1) test_orr_4h_0x5A_lsl0(TyH);
if (1) test_orr_4h_0xA5_lsl8(TyH);
if (1) test_orr_4s_0x5A_lsl0(TyS);
if (1) test_orr_4s_0x6B_lsl8(TyS);
if (1) test_orr_4s_0x49_lsl16(TyS);
if (1) test_orr_4s_0x3D_lsl24(TyS);
if (1) test_orr_2s_0x5A_lsl0(TyS);
if (1) test_orr_2s_0x6B_lsl8(TyS);
if (1) test_orr_2s_0x49_lsl16(TyS);
if (1) test_orr_2s_0x3D_lsl24(TyS);
if (1) test_bic_8h_0x5A_lsl0(TyH);
if (1) test_bic_8h_0xA5_lsl8(TyH);
if (1) test_bic_4h_0x5A_lsl0(TyH);
if (1) test_bic_4h_0xA5_lsl8(TyH);
if (1) test_bic_4s_0x5A_lsl0(TyS);
if (1) test_bic_4s_0x6B_lsl8(TyS);
if (1) test_bic_4s_0x49_lsl16(TyS);
if (1) test_bic_4s_0x3D_lsl24(TyS);
if (1) test_bic_2s_0x5A_lsl0(TyS);
if (1) test_bic_2s_0x6B_lsl8(TyS);
if (1) test_bic_2s_0x49_lsl16(TyS);
if (1) test_bic_2s_0x3D_lsl24(TyS);
// bif 16b,8b (vector) (bit insert if false)
// bit 16b,8b (vector) (bit insert if true)
// bsl 16b,8b (vector) (bit select)
// eor 16b,8b (vector)
if (1) test_bif_16b_16b_16b(TyB);
if (1) test_bif_8b_8b_8b(TyB);
if (1) test_bit_16b_16b_16b(TyB);
if (1) test_bit_8b_8b_8b(TyB);
if (1) test_bsl_16b_16b_16b(TyB);
if (1) test_bsl_8b_8b_8b(TyB);
if (1) test_eor_16b_16b_16b(TyB);
if (1) test_eor_8b_8b_8b(TyB);
// cls 4s,2s,8h,4h,16b,8b (count leading sign bits)
// clz 4s,2s,8h,4h,16b,8b (count leading zero bits)
if (1) test_cls_4s_4s(TyS);
if (1) test_cls_2s_2s(TyS);
if (1) test_cls_8h_8h(TyH);
if (1) test_cls_4h_4h(TyH);
if (1) test_cls_16b_16b(TyB);
if (1) test_cls_8b_8b(TyB);
if (1) test_clz_4s_4s(TyS);
if (1) test_clz_2s_2s(TyS);
if (1) test_clz_8h_8h(TyH);
if (1) test_clz_4h_4h(TyH);
if (1) test_clz_16b_16b(TyB);
if (1) test_clz_8b_8b(TyB);
// cmeq d
// cmge d
// cmgt d
// cmhi d
// cmhs d
// cmtst d
if (1) test_cmeq_d_d_d(TyD);
if (1) test_cmge_d_d_d(TyD);
if (1) test_cmgt_d_d_d(TyD);
if (1) test_cmhi_d_d_d(TyD);
if (1) test_cmhs_d_d_d(TyD);
if (1) test_cmtst_d_d_d(TyD);
// cmeq 2d,4s,2s,8h,4h,16b,8b
// cmge 2d,4s,2s,8h,4h,16b,8b
// cmgt 2d,4s,2s,8h,4h,16b,8b
// cmhi 2d,4s,2s,8h,4h,16b,8b
// cmhs 2d,4s,2s,8h,4h,16b,8b
// cmtst 2d,4s,2s,8h,4h,16b,8b
if (1) test_cmeq_2d_2d_2d(TyD);
if (1) test_cmeq_4s_4s_4s(TyS);
if (1) test_cmeq_2s_2s_2s(TyS);
if (1) test_cmeq_8h_8h_8h(TyH);
if (1) test_cmeq_4h_4h_4h(TyH);
if (1) test_cmeq_16b_16b_16b(TyB);
if (1) test_cmeq_8b_8b_8b(TyB);
if (1) test_cmge_2d_2d_2d(TyD);
if (1) test_cmge_4s_4s_4s(TyS);
if (1) test_cmge_2s_2s_2s(TyS);
if (1) test_cmge_8h_8h_8h(TyH);
if (1) test_cmge_4h_4h_4h(TyH);
if (1) test_cmge_16b_16b_16b(TyB);
if (1) test_cmge_8b_8b_8b(TyB);
if (1) test_cmgt_2d_2d_2d(TyD);
if (1) test_cmgt_4s_4s_4s(TyS);
if (1) test_cmgt_2s_2s_2s(TyS);
if (1) test_cmgt_8h_8h_8h(TyH);
if (1) test_cmgt_4h_4h_4h(TyH);
if (1) test_cmgt_16b_16b_16b(TyB);
if (1) test_cmgt_8b_8b_8b(TyB);
if (1) test_cmhi_2d_2d_2d(TyD);
if (1) test_cmhi_4s_4s_4s(TyS);
if (1) test_cmhi_2s_2s_2s(TyS);
if (1) test_cmhi_8h_8h_8h(TyH);
if (1) test_cmhi_4h_4h_4h(TyH);
if (1) test_cmhi_16b_16b_16b(TyB);
if (1) test_cmhi_8b_8b_8b(TyB);
if (1) test_cmhs_2d_2d_2d(TyD);
if (1) test_cmhs_4s_4s_4s(TyS);
if (1) test_cmhs_2s_2s_2s(TyS);
if (1) test_cmhs_8h_8h_8h(TyH);
if (1) test_cmhs_4h_4h_4h(TyH);
if (1) test_cmhs_16b_16b_16b(TyB);
if (1) test_cmhs_8b_8b_8b(TyB);
if (1) test_cmtst_2d_2d_2d(TyD);
if (1) test_cmtst_4s_4s_4s(TyS);
if (1) test_cmtst_2s_2s_2s(TyS);
if (1) test_cmtst_8h_8h_8h(TyH);
if (1) test_cmtst_4h_4h_4h(TyH);
if (1) test_cmtst_16b_16b_16b(TyB);
if (1) test_cmtst_8b_8b_8b(TyB);
// cmeq_z d
// cmge_z d
// cmgt_z d
// cmle_z d
// cmlt_z d
if (1) test_cmeq_zero_d_d(TyD);
if (1) test_cmge_zero_d_d(TyD);
if (1) test_cmgt_zero_d_d(TyD);
if (1) test_cmle_zero_d_d(TyD);
if (1) test_cmlt_zero_d_d(TyD);
// cmeq_z 2d,4s,2s,8h,4h,16b,8b
// cmge_z 2d,4s,2s,8h,4h,16b,8b
// cmgt_z 2d,4s,2s,8h,4h,16b,8b
// cmle_z 2d,4s,2s,8h,4h,16b,8b
// cmlt_z 2d,4s,2s,8h,4h,16b,8b
if (1) test_cmeq_zero_2d_2d(TyD);
if (1) test_cmeq_zero_4s_4s(TyS);
if (1) test_cmeq_zero_2s_2s(TyS);
if (1) test_cmeq_zero_8h_8h(TyH);
if (1) test_cmeq_zero_4h_4h(TyH);
if (1) test_cmeq_zero_16b_16b(TyB);
if (1) test_cmeq_zero_8b_8b(TyB);
if (1) test_cmge_zero_2d_2d(TyD);
if (1) test_cmge_zero_4s_4s(TyS);
if (1) test_cmge_zero_2s_2s(TyS);
if (1) test_cmge_zero_8h_8h(TyH);
if (1) test_cmge_zero_4h_4h(TyH);
if (1) test_cmge_zero_16b_16b(TyB);
if (1) test_cmge_zero_8b_8b(TyB);
if (1) test_cmgt_zero_2d_2d(TyD);
if (1) test_cmgt_zero_4s_4s(TyS);
if (1) test_cmgt_zero_2s_2s(TyS);
if (1) test_cmgt_zero_8h_8h(TyH);
if (1) test_cmgt_zero_4h_4h(TyH);
if (1) test_cmgt_zero_16b_16b(TyB);
if (1) test_cmgt_zero_8b_8b(TyB);
if (1) test_cmle_zero_2d_2d(TyD);
if (1) test_cmle_zero_4s_4s(TyS);
if (1) test_cmle_zero_2s_2s(TyS);
if (1) test_cmle_zero_8h_8h(TyH);
if (1) test_cmle_zero_4h_4h(TyH);
if (1) test_cmle_zero_16b_16b(TyB);
if (1) test_cmle_zero_8b_8b(TyB);
if (1) test_cmlt_zero_2d_2d(TyD);
if (1) test_cmlt_zero_4s_4s(TyS);
if (1) test_cmlt_zero_2s_2s(TyS);
if (1) test_cmlt_zero_8h_8h(TyH);
if (1) test_cmlt_zero_4h_4h(TyH);
if (1) test_cmlt_zero_16b_16b(TyB);
if (1) test_cmlt_zero_8b_8b(TyB);
// cnt 16b,8b (population count per byte)
if (1) test_cnt_16b_16b(TyB);
if (1) test_cnt_8b_8b(TyB);
// dup d,s,h,b (vec elem to scalar)
if (1) test_dup_d_d0(TyD);
if (1) test_dup_d_d1(TyD);
if (1) test_dup_s_s0(TyS);
if (1) test_dup_s_s3(TyS);
if (1) test_dup_h_h0(TyH);
if (1) test_dup_h_h6(TyH);
if (1) test_dup_b_b0(TyB);
if (1) test_dup_b_b13(TyB);
// dup 2d,4s,2s,8h,4h,16b,8b (vec elem to vector)
if (1) test_dup_2d_d0(TyD);
if (1) test_dup_2d_d1(TyD);
if (1) test_dup_4s_s0(TyS);
if (1) test_dup_4s_s3(TyS);
if (1) test_dup_2s_s0(TyS);
if (1) test_dup_2s_s2(TyS);
if (1) test_dup_8h_h0(TyH);
if (1) test_dup_8h_h6(TyH);
if (1) test_dup_4h_h1(TyH);
if (1) test_dup_4h_h5(TyH);
if (1) test_dup_16b_b2(TyB);
if (1) test_dup_16b_b12(TyB);
if (1) test_dup_8b_b3(TyB);
if (1) test_dup_8b_b13(TyB);
// dup 2d,4s,2s,8h,4h,16b,8b (general reg to vector)
if (1) test_dup_2d_x(TyD);
if (1) test_dup_4s_w(TyS);
if (1) test_dup_2s_w(TyS);
if (1) test_dup_8h_w(TyH);
if (1) test_dup_4h_w(TyH);
if (1) test_dup_16b_w(TyB);
if (1) test_dup_8b_w(TyB);
// ext 16b,8b,#imm4 (concat 2 vectors, then slice)
if (1) test_ext_16b_16b_16b_0x0(TyB);
if (1) test_ext_16b_16b_16b_0x1(TyB);
if (1) test_ext_16b_16b_16b_0x2(TyB);
if (1) test_ext_16b_16b_16b_0x3(TyB);
if (1) test_ext_16b_16b_16b_0x4(TyB);
if (1) test_ext_16b_16b_16b_0x5(TyB);
if (1) test_ext_16b_16b_16b_0x6(TyB);
if (1) test_ext_16b_16b_16b_0x7(TyB);
if (1) test_ext_16b_16b_16b_0x8(TyB);
if (1) test_ext_16b_16b_16b_0x9(TyB);
if (1) test_ext_16b_16b_16b_0xA(TyB);
if (1) test_ext_16b_16b_16b_0xB(TyB);
if (1) test_ext_16b_16b_16b_0xC(TyB);
if (1) test_ext_16b_16b_16b_0xD(TyB);
if (1) test_ext_16b_16b_16b_0xE(TyB);
if (1) test_ext_16b_16b_16b_0xF(TyB);
if (1) test_ext_8b_8b_8b_0x0(TyB);
if (1) test_ext_8b_8b_8b_0x1(TyB);
if (1) test_ext_8b_8b_8b_0x2(TyB);
if (1) test_ext_8b_8b_8b_0x3(TyB);
if (1) test_ext_8b_8b_8b_0x4(TyB);
if (1) test_ext_8b_8b_8b_0x5(TyB);
if (1) test_ext_8b_8b_8b_0x6(TyB);
if (1) test_ext_8b_8b_8b_0x7(TyB);
// ins d[]_d[],s[]_s[],h[]_h[],b[]_b[]
if (1) test_ins_d0_d0(TyD);
if (1) test_ins_d0_d1(TyD);
if (1) test_ins_d1_d0(TyD);
if (1) test_ins_d1_d1(TyD);
if (1) test_ins_s0_s2(TyS);
if (1) test_ins_s3_s0(TyS);
if (1) test_ins_s2_s1(TyS);
if (1) test_ins_s1_s3(TyS);
if (1) test_ins_h0_h6(TyH);
if (1) test_ins_h7_h0(TyH);
if (1) test_ins_h6_h1(TyH);
if (1) test_ins_h1_h7(TyH);
if (1) test_ins_b0_b14(TyB);
if (1) test_ins_b15_b8(TyB);
if (1) test_ins_b13_b9(TyB);
if (1) test_ins_b5_b12(TyB);
// ins d[]_x, s[]_w, h[]_w, b[]_w
if (1) test_INS_general();
// mla 4s_4s_s[],2s_2s_s[],8h_8h_h[],4h_4h_h[]
// mls 4s_4s_s[],2s_2s_s[],8h_8h_h[],4h_4h_h[]
// mul 4s_4s_s[],2s_2s_s[],8h_8h_h[],4h_4h_h[]
if (1) test_mla_4s_4s_s0(TyS);
if (1) test_mla_4s_4s_s3(TyS);
if (1) test_mla_2s_2s_s0(TyS);
if (1) test_mla_2s_2s_s3(TyS);
if (1) test_mla_8h_8h_h1(TyH);
if (1) test_mla_8h_8h_h5(TyH);
if (1) test_mla_4h_4h_h2(TyH);
if (1) test_mla_4h_4h_h7(TyH);
if (1) test_mls_4s_4s_s0(TyS);
if (1) test_mls_4s_4s_s3(TyS);
if (1) test_mls_2s_2s_s0(TyS);
if (1) test_mls_2s_2s_s3(TyS);
if (1) test_mls_8h_8h_h1(TyH);
if (1) test_mls_8h_8h_h5(TyH);
if (1) test_mls_4h_4h_h2(TyH);
if (1) test_mls_4h_4h_h7(TyH);
if (1) test_mul_4s_4s_s0(TyS);
if (1) test_mul_4s_4s_s3(TyS);
if (1) test_mul_2s_2s_s0(TyS);
if (1) test_mul_2s_2s_s3(TyS);
if (1) test_mul_8h_8h_h1(TyH);
if (1) test_mul_8h_8h_h5(TyH);
if (1) test_mul_4h_4h_h2(TyH);
if (1) test_mul_4h_4h_h7(TyH);
// mla 4s,2s,8h,4h,16b,8b
// mls 4s,2s,8h,4h,16b,8b
// mul 4s,2s,8h,4h,16b,8b
if (1) test_mla_4s_4s_4s(TyS);
if (1) test_mla_2s_2s_2s(TyS);
if (1) test_mla_8h_8h_8h(TyH);
if (1) test_mla_4h_4h_4h(TyH);
if (1) test_mla_16b_16b_16b(TyB);
if (1) test_mla_8b_8b_8b(TyB);
if (1) test_mls_4s_4s_4s(TyS);
if (1) test_mls_2s_2s_2s(TyS);
if (1) test_mls_8h_8h_8h(TyH);
if (1) test_mls_4h_4h_4h(TyH);
if (1) test_mls_16b_16b_16b(TyB);
if (1) test_mls_8b_8b_8b(TyB);
if (1) test_mul_4s_4s_4s(TyS);
if (1) test_mul_2s_2s_2s(TyS);
if (1) test_mul_8h_8h_8h(TyH);
if (1) test_mul_4h_4h_4h(TyH);
if (1) test_mul_16b_16b_16b(TyB);
if (1) test_mul_8b_8b_8b(TyB);
// Some of these movi and mvni cases are similar to orr and bic
// cases with immediates. Maybe they should be moved together.
// movi 16b,8b #imm8, LSL #0
if (1) test_movi_16b_0x9C_lsl0(TyB);
if (1) test_movi_8b_0x8B_lsl0(TyB);
// movi 8h,4h #imm8, LSL #0 or 8
// mvni 8h,4h #imm8, LSL #0 or 8
if (1) test_movi_8h_0x5A_lsl0(TyH);
if (1) test_movi_8h_0xA5_lsl8(TyH);
if (1) test_movi_4h_0x5A_lsl0(TyH);
if (1) test_movi_4h_0xA5_lsl8(TyH);
if (1) test_mvni_8h_0x5A_lsl0(TyH);
if (1) test_mvni_8h_0xA5_lsl8(TyH);
if (1) test_mvni_4h_0x5A_lsl0(TyH);
if (1) test_mvni_4h_0xA5_lsl8(TyH);
// movi 4s,2s #imm8, LSL #0, 8, 16, 24
// mvni 4s,2s #imm8, LSL #0, 8, 16, 24
if (1) test_movi_4s_0x5A_lsl0(TyS);
if (1) test_movi_4s_0x6B_lsl8(TyS);
if (1) test_movi_4s_0x49_lsl16(TyS);
if (1) test_movi_4s_0x3D_lsl24(TyS);
if (1) test_movi_2s_0x5A_lsl0(TyS);
if (1) test_movi_2s_0x6B_lsl8(TyS);
if (1) test_movi_2s_0x49_lsl16(TyS);
if (1) test_movi_2s_0x3D_lsl24(TyS);
if (1) test_mvni_4s_0x5A_lsl0(TyS);
if (1) test_mvni_4s_0x6B_lsl8(TyS);
if (1) test_mvni_4s_0x49_lsl16(TyS);
if (1) test_mvni_4s_0x3D_lsl24(TyS);
if (1) test_mvni_2s_0x5A_lsl0(TyS);
if (1) test_mvni_2s_0x6B_lsl8(TyS);
if (1) test_mvni_2s_0x49_lsl16(TyS);
if (1) test_mvni_2s_0x3D_lsl24(TyS);
// movi 4s,2s #imm8, MSL #8 or 16
// mvni 4s,2s #imm8, MSL #8 or 16
if (1) test_movi_4s_0x6B_msl8(TyS);
if (1) test_movi_4s_0x94_msl16(TyS);
if (1) test_movi_2s_0x7A_msl8(TyS);
if (1) test_movi_2s_0xA5_msl16(TyS);
if (1) test_mvni_4s_0x6B_msl8(TyS);
if (1) test_mvni_4s_0x94_msl16(TyS);
if (1) test_mvni_2s_0x7A_msl8(TyS);
if (1) test_mvni_2s_0xA5_msl16(TyS);
// movi d, #imm64
// movi 2d, #imm64
if (1) test_movi_d_0xA5(TyD);
if (1) test_movi_2d_0xB4(TyD);
// not 16b,8b
if (1) test_not_16b_16b(TyB);
if (1) test_not_8b_8b(TyB);
// pmul 16b,8b
if (1) test_pmul_16b_16b_16b(TyB);
if (1) test_pmul_8b_8b_8b(TyB);
// pmull{2} 8h_8b_8b,8h_16b_16b,1q_1d_1d,1q_2d_2d
if (1) test_pmull_8h_8b_8b(TyB);
if (1) test_pmull2_8h_16b_16b(TyB);
//if (0) test_pmull_1q_1d_1d(TyD);
//if (0) test_pmull_1q_2d_2d(TyD);
// rbit 16b,8b
// rev16 16b,8b
// rev32 16b,8b,8h,4h
// rev64 16b,8b,8h,4h,4s,2s
if (1) test_rbit_16b_16b(TyB);
if (1) test_rbit_8b_8b(TyB);
if (1) test_rev16_16b_16b(TyB);
if (1) test_rev16_8b_8b(TyB);
if (1) test_rev32_16b_16b(TyB);
if (1) test_rev32_8b_8b(TyB);
if (1) test_rev32_8h_8h(TyH);
if (1) test_rev32_4h_4h(TyH);
if (1) test_rev64_16b_16b(TyB);
if (1) test_rev64_8b_8b(TyB);
if (1) test_rev64_8h_8h(TyH);
if (1) test_rev64_4h_4h(TyH);
if (1) test_rev64_4s_4s(TyS);
if (1) test_rev64_2s_2s(TyS);
// saba 16b,8b,8h,4h,4s,2s
// uaba 16b,8b,8h,4h,4s,2s
if (1) test_saba_4s_4s_4s(TyS);
if (1) test_saba_2s_2s_2s(TyS);
if (1) test_saba_8h_8h_8h(TyH);
if (1) test_saba_4h_4h_4h(TyH);
if (1) test_saba_16b_16b_16b(TyB);
if (1) test_saba_8b_8b_8b(TyB);
if (1) test_uaba_4s_4s_4s(TyS);
if (1) test_uaba_2s_2s_2s(TyS);
if (1) test_uaba_8h_8h_8h(TyH);
if (1) test_uaba_4h_4h_4h(TyH);
if (1) test_uaba_16b_16b_16b(TyB);
if (1) test_uaba_8b_8b_8b(TyB);
// sabal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
// uabal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
if (1) test_sabal_2d_2s_2s(TyS);
if (1) test_sabal2_2d_4s_4s(TyS);
if (1) test_sabal_4s_4h_4h(TyH);
if (1) test_sabal2_4s_8h_8h(TyH);
if (1) test_sabal_8h_8b_8b(TyB);
if (1) test_sabal2_8h_16b_16b(TyB);
if (1) test_uabal_2d_2s_2s(TyS);
if (1) test_uabal2_2d_4s_4s(TyS);
if (1) test_uabal_4s_4h_4h(TyH);
if (1) test_uabal2_4s_8h_8h(TyH);
if (1) test_uabal_8h_8b_8b(TyB);
if (1) test_uabal2_8h_16b_16b(TyB);
// sabd 16b,8b,8h,4h,4s,2s
// uabd 16b,8b,8h,4h,4s,2s
if (1) test_sabd_4s_4s_4s(TyS);
if (1) test_sabd_2s_2s_2s(TyS);
if (1) test_sabd_8h_8h_8h(TyH);
if (1) test_sabd_4h_4h_4h(TyH);
if (1) test_sabd_16b_16b_16b(TyB);
if (1) test_sabd_8b_8b_8b(TyB);
if (1) test_uabd_4s_4s_4s(TyS);
if (1) test_uabd_2s_2s_2s(TyS);
if (1) test_uabd_8h_8h_8h(TyH);
if (1) test_uabd_4h_4h_4h(TyH);
if (1) test_uabd_16b_16b_16b(TyB);
if (1) test_uabd_8b_8b_8b(TyB);
// sabdl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
// uabdl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
if (1) test_sabdl_2d_2s_2s(TyS);
if (1) test_sabdl2_2d_4s_4s(TyS);
if (1) test_sabdl_4s_4h_4h(TyH);
if (1) test_sabdl2_4s_8h_8h(TyH);
if (1) test_sabdl_8h_8b_8b(TyB);
if (1) test_sabdl2_8h_16b_16b(TyB);
if (1) test_uabdl_2d_2s_2s(TyS);
if (1) test_uabdl2_2d_4s_4s(TyS);
if (1) test_uabdl_4s_4h_4h(TyH);
if (1) test_uabdl2_4s_8h_8h(TyH);
if (1) test_uabdl_8h_8b_8b(TyB);
if (1) test_uabdl2_8h_16b_16b(TyB);
// sadalp 4h_8b,8h_16b,2s_4h,4s_8h,1d_2s,2d_4s
// uadalp 4h_8b,8h_16b,2s_4h,4s_8h,1d_2s,2d_4s
if (1) test_sadalp_1d_2s(TyS);
if (1) test_sadalp_2d_4s(TyS);
if (1) test_sadalp_2s_4h(TyH);
if (1) test_sadalp_4s_8h(TyH);
if (1) test_sadalp_4h_8b(TyB);
if (1) test_sadalp_8h_16b(TyB);
if (1) test_uadalp_1d_2s(TyS);
if (1) test_uadalp_2d_4s(TyS);
if (1) test_uadalp_2s_4h(TyH);
if (1) test_uadalp_4s_8h(TyH);
if (1) test_uadalp_4h_8b(TyB);
if (1) test_uadalp_8h_16b(TyB);
// saddl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
// uaddl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
// ssubl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
// usubl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
if (1) test_saddl_2d_2s_2s(TyS);
if (1) test_saddl2_2d_4s_4s(TyS);
if (1) test_saddl_4s_4h_4h(TyH);
if (1) test_saddl2_4s_8h_8h(TyH);
if (1) test_saddl_8h_8b_8b(TyB);
if (1) test_saddl2_8h_16b_16b(TyB);
if (1) test_uaddl_2d_2s_2s(TyS);
if (1) test_uaddl2_2d_4s_4s(TyS);
if (1) test_uaddl_4s_4h_4h(TyH);
if (1) test_uaddl2_4s_8h_8h(TyH);
if (1) test_uaddl_8h_8b_8b(TyB);
if (1) test_uaddl2_8h_16b_16b(TyB);
if (1) test_ssubl_2d_2s_2s(TyS);
if (1) test_ssubl2_2d_4s_4s(TyS);
if (1) test_ssubl_4s_4h_4h(TyH);
if (1) test_ssubl2_4s_8h_8h(TyH);
if (1) test_ssubl_8h_8b_8b(TyB);
if (1) test_ssubl2_8h_16b_16b(TyB);
if (1) test_usubl_2d_2s_2s(TyS);
if (1) test_usubl2_2d_4s_4s(TyS);
if (1) test_usubl_4s_4h_4h(TyH);
if (1) test_usubl2_4s_8h_8h(TyH);
if (1) test_usubl_8h_8b_8b(TyB);
if (1) test_usubl2_8h_16b_16b(TyB);
// saddlp 4h_8b,8h_16b,2s_4h,4s_8h,1d_2s,2d_4s
// uaddlp 4h_8b,8h_16b,2s_4h,4s_8h,1d_2s,2d_4s
if (1) test_saddlp_1d_2s(TyS);
if (1) test_saddlp_2d_4s(TyS);
if (1) test_saddlp_2s_4h(TyH);
if (1) test_saddlp_4s_8h(TyH);
if (1) test_saddlp_4h_8b(TyB);
if (1) test_saddlp_8h_16b(TyB);
if (1) test_uaddlp_1d_2s(TyS);
if (1) test_uaddlp_2d_4s(TyS);
if (1) test_uaddlp_2s_4h(TyH);
if (1) test_uaddlp_4s_8h(TyH);
if (1) test_uaddlp_4h_8b(TyB);
if (1) test_uaddlp_8h_16b(TyB);
// saddlv h_16b/8b, s_8h/4h, d_4s
// uaddlv h_16b/8b, s_8h/4h, d_4s
if (1) test_saddlv_h_16b(TyB);
if (1) test_saddlv_h_8b(TyB);
if (1) test_saddlv_s_8h(TyH);
if (1) test_saddlv_s_4h(TyH);
if (1) test_saddlv_d_4s(TyH);
if (1) test_uaddlv_h_16b(TyB);
if (1) test_uaddlv_h_8b(TyB);
if (1) test_uaddlv_s_8h(TyH);
if (1) test_uaddlv_s_4h(TyH);
if (1) test_uaddlv_d_4s(TyH);
// saddw{2} 8h_8h_16b/8b, 4s_4s_8h/4h, 2d_2d_4s/2s
// uaddw{2} 8h_8h_16b/8b, 4s_4s_8h/4h, 2d_2d_4s/2s
// ssubw{2} 8h_8h_16b/8b, 4s_4s_8h/4h, 2d_2d_4s/2s
// usubw{2} 8h_8h_16b/8b, 4s_4s_8h/4h, 2d_2d_4s/2s
if (1) test_saddw2_8h_8h_16b(TyB);
if (1) test_saddw_8h_8h_8b(TyB);
if (1) test_saddw2_4s_4s_8h(TyH);
if (1) test_saddw_4s_4s_4h(TyH);
if (1) test_saddw2_2d_2d_4s(TyS);
if (1) test_saddw_2d_2d_2s(TyS);
if (1) test_uaddw2_8h_8h_16b(TyB);
if (1) test_uaddw_8h_8h_8b(TyB);
if (1) test_uaddw2_4s_4s_8h(TyH);
if (1) test_uaddw_4s_4s_4h(TyH);
if (1) test_uaddw2_2d_2d_4s(TyS);
if (1) test_uaddw_2d_2d_2s(TyS);
if (1) test_ssubw2_8h_8h_16b(TyB);
if (1) test_ssubw_8h_8h_8b(TyB);
if (1) test_ssubw2_4s_4s_8h(TyH);
if (1) test_ssubw_4s_4s_4h(TyH);
if (1) test_ssubw2_2d_2d_4s(TyS);
if (1) test_ssubw_2d_2d_2s(TyS);
if (1) test_usubw2_8h_8h_16b(TyB);
if (1) test_usubw_8h_8h_8b(TyB);
if (1) test_usubw2_4s_4s_8h(TyH);
if (1) test_usubw_4s_4s_4h(TyH);
if (1) test_usubw2_2d_2d_4s(TyS);
if (1) test_usubw_2d_2d_2s(TyS);
// shadd 16b,8b,8h,4h,4s,2s
// uhadd 16b,8b,8h,4h,4s,2s
// shsub 16b,8b,8h,4h,4s,2s
// uhsub 16b,8b,8h,4h,4s,2s
if (1) test_shadd_4s_4s_4s(TyS);
if (1) test_shadd_2s_2s_2s(TyS);
if (1) test_shadd_8h_8h_8h(TyH);
if (1) test_shadd_4h_4h_4h(TyH);
if (1) test_shadd_16b_16b_16b(TyB);
if (1) test_shadd_8b_8b_8b(TyB);
if (1) test_uhadd_4s_4s_4s(TyS);
if (1) test_uhadd_2s_2s_2s(TyS);
if (1) test_uhadd_8h_8h_8h(TyH);
if (1) test_uhadd_4h_4h_4h(TyH);
if (1) test_uhadd_16b_16b_16b(TyB);
if (1) test_uhadd_8b_8b_8b(TyB);
if (1) test_shsub_4s_4s_4s(TyS);
if (1) test_shsub_2s_2s_2s(TyS);
if (1) test_shsub_8h_8h_8h(TyH);
if (1) test_shsub_4h_4h_4h(TyH);
if (1) test_shsub_16b_16b_16b(TyB);
if (1) test_shsub_8b_8b_8b(TyB);
if (1) test_uhsub_4s_4s_4s(TyS);
if (1) test_uhsub_2s_2s_2s(TyS);
if (1) test_uhsub_8h_8h_8h(TyH);
if (1) test_uhsub_4h_4h_4h(TyH);
if (1) test_uhsub_16b_16b_16b(TyB);
if (1) test_uhsub_8b_8b_8b(TyB);
// shll{2} 8h_8b/16b_#8, 4s_4h/8h_#16, 2d_2s/4s_#32
if (1) test_shll_8h_8b_8(TyB);
if (1) test_shll2_8h_16b_8(TyB);
if (1) test_shll_4s_4h_16(TyH);
if (1) test_shll2_4s_8h_16(TyH);
if (1) test_shll_2d_2s_32(TyS);
if (1) test_shll2_2d_4s_32(TyS);
// shrn{2} 2s/4s_2d, 8h/4h_4s, 8b/16b_8h, #imm in 1 .. elem_bits
// rshrn{2} 2s/4s_2d, 8h/4h_4s, 8b/16b_8h, #imm in 1 .. elem_bits
if (1) test_shrn_2s_2d_1(TyD);
if (1) test_shrn_2s_2d_32(TyD);
if (1) test_shrn2_4s_2d_1(TyD);
if (1) test_shrn2_4s_2d_32(TyD);
if (1) test_shrn_4h_4s_1(TyS);
if (1) test_shrn_4h_4s_16(TyS);
if (1) test_shrn2_8h_4s_1(TyS);
if (1) test_shrn2_8h_4s_16(TyS);
if (1) test_shrn_8b_8h_1(TyH);
if (1) test_shrn_8b_8h_8(TyH);
if (1) test_shrn2_16b_8h_1(TyH);
if (1) test_shrn2_16b_8h_8(TyH);
if (1) test_rshrn_2s_2d_1(TyD);
if (1) test_rshrn_2s_2d_32(TyD);
if (1) test_rshrn2_4s_2d_1(TyD);
if (1) test_rshrn2_4s_2d_32(TyD);
if (1) test_rshrn_4h_4s_1(TyS);
if (1) test_rshrn_4h_4s_16(TyS);
if (1) test_rshrn2_8h_4s_1(TyS);
if (1) test_rshrn2_8h_4s_16(TyS);
if (1) test_rshrn_8b_8h_1(TyH);
if (1) test_rshrn_8b_8h_8(TyH);
if (1) test_rshrn2_16b_8h_1(TyH);
if (1) test_rshrn2_16b_8h_8(TyH);
// sli d_#imm
// sri d_#imm
if (1) test_sli_d_d_0(TyD);
if (1) test_sli_d_d_32(TyD);
if (1) test_sli_d_d_63(TyD);
if (1) test_sri_d_d_1(TyD);
if (1) test_sri_d_d_33(TyD);
if (1) test_sri_d_d_64(TyD);
// sli 2d,4s,2s,8h,4h,16b,8b _#imm
// sri 2d,4s,2s,8h,4h,16b,8b _#imm
if (1) test_sli_2d_2d_0(TyD);
if (1) test_sli_2d_2d_32(TyD);
if (1) test_sli_2d_2d_63(TyD);
if (1) test_sli_4s_4s_0(TyS);
if (1) test_sli_4s_4s_16(TyS);
if (1) test_sli_4s_4s_31(TyS);
if (1) test_sli_2s_2s_0(TyS);
if (1) test_sli_2s_2s_16(TyS);
if (1) test_sli_2s_2s_31(TyS);
if (1) test_sli_8h_8h_0(TyH);
if (1) test_sli_8h_8h_8(TyH);
if (1) test_sli_8h_8h_15(TyH);
if (1) test_sli_4h_4h_0(TyH);
if (1) test_sli_4h_4h_8(TyH);
if (1) test_sli_4h_4h_15(TyH);
if (1) test_sli_16b_16b_0(TyB);
if (1) test_sli_16b_16b_3(TyB);
if (1) test_sli_16b_16b_7(TyB);
if (1) test_sli_8b_8b_0(TyB);
if (1) test_sli_8b_8b_3(TyB);
if (1) test_sli_8b_8b_7(TyB);
if (1) test_sri_2d_2d_1(TyD);
if (1) test_sri_2d_2d_33(TyD);
if (1) test_sri_2d_2d_64(TyD);
if (1) test_sri_4s_4s_1(TyS);
if (1) test_sri_4s_4s_17(TyS);
if (1) test_sri_4s_4s_32(TyS);
if (1) test_sri_2s_2s_1(TyS);
if (1) test_sri_2s_2s_17(TyS);
if (1) test_sri_2s_2s_32(TyS);
if (1) test_sri_8h_8h_1(TyH);
if (1) test_sri_8h_8h_8(TyH);
if (1) test_sri_8h_8h_16(TyH);
if (1) test_sri_4h_4h_1(TyH);
if (1) test_sri_4h_4h_8(TyH);
if (1) test_sri_4h_4h_16(TyH);
if (1) test_sri_16b_16b_1(TyB);
if (1) test_sri_16b_16b_4(TyB);
if (1) test_sri_16b_16b_8(TyB);
if (1) test_sri_8b_8b_1(TyB);
if (1) test_sri_8b_8b_4(TyB);
if (1) test_sri_8b_8b_8(TyB);
// smax 4s,2s,8h,4h,16b,8b
// umax 4s,2s,8h,4h,16b,8b
// smin 4s,2s,8h,4h,16b,8b
// umin 4s,2s,8h,4h,16b,8b
if (1) test_smax_4s_4s_4s(TyS);
if (1) test_smax_2s_2s_2s(TyS);
if (1) test_smax_8h_8h_8h(TyH);
if (1) test_smax_4h_4h_4h(TyH);
if (1) test_smax_16b_16b_16b(TyB);
if (1) test_smax_8b_8b_8b(TyB);
if (1) test_umax_4s_4s_4s(TyS);
if (1) test_umax_2s_2s_2s(TyS);
if (1) test_umax_8h_8h_8h(TyH);
if (1) test_umax_4h_4h_4h(TyH);
if (1) test_umax_16b_16b_16b(TyB);
if (1) test_umax_8b_8b_8b(TyB);
if (1) test_smin_4s_4s_4s(TyS);
if (1) test_smin_2s_2s_2s(TyS);
if (1) test_smin_8h_8h_8h(TyH);
if (1) test_smin_4h_4h_4h(TyH);
if (1) test_smin_16b_16b_16b(TyB);
if (1) test_smin_8b_8b_8b(TyB);
if (1) test_umin_4s_4s_4s(TyS);
if (1) test_umin_2s_2s_2s(TyS);
if (1) test_umin_8h_8h_8h(TyH);
if (1) test_umin_4h_4h_4h(TyH);
if (1) test_umin_16b_16b_16b(TyB);
if (1) test_umin_8b_8b_8b(TyB);
// smaxp 4s,2s,8h,4h,16b,8b
// umaxp 4s,2s,8h,4h,16b,8b
// sminp 4s,2s,8h,4h,16b,8b
// uminp 4s,2s,8h,4h,16b,8b
if (1) test_smaxp_4s_4s_4s(TyS);
if (1) test_smaxp_2s_2s_2s(TyS);
if (1) test_smaxp_8h_8h_8h(TyH);
if (1) test_smaxp_4h_4h_4h(TyH);
if (1) test_smaxp_16b_16b_16b(TyB);
if (1) test_smaxp_8b_8b_8b(TyB);
if (1) test_umaxp_4s_4s_4s(TyS);
if (1) test_umaxp_2s_2s_2s(TyS);
if (1) test_umaxp_8h_8h_8h(TyH);
if (1) test_umaxp_4h_4h_4h(TyH);
if (1) test_umaxp_16b_16b_16b(TyB);
if (1) test_umaxp_8b_8b_8b(TyB);
if (1) test_sminp_4s_4s_4s(TyS);
if (1) test_sminp_2s_2s_2s(TyS);
if (1) test_sminp_8h_8h_8h(TyH);
if (1) test_sminp_4h_4h_4h(TyH);
if (1) test_sminp_16b_16b_16b(TyB);
if (1) test_sminp_8b_8b_8b(TyB);
if (1) test_uminp_4s_4s_4s(TyS);
if (1) test_uminp_2s_2s_2s(TyS);
if (1) test_uminp_8h_8h_8h(TyH);
if (1) test_uminp_4h_4h_4h(TyH);
if (1) test_uminp_16b_16b_16b(TyB);
if (1) test_uminp_8b_8b_8b(TyB);
// smaxv s_4s,h_8h,h_4h,b_16b,b_8b
// umaxv s_4s,h_8h,h_4h,b_16b,b_8b
// sminv s_4s,h_8h,h_4h,b_16b,b_8b
// uminv s_4s,h_8h,h_4h,b_16b,b_8b
if (1) test_SMAXV();
if (1) test_UMAXV();
if (1) test_SMINV();
if (1) test_UMINV();
// smlal{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
// umlal{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
// smlsl{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
// umlsl{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
// smull{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
// umull{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
if (1) test_smlal_2d_2s_s0(TyS);
if (1) test_smlal_2d_2s_s3(TyS);
if (1) test_smlal2_2d_4s_s1(TyS);
if (1) test_smlal2_2d_4s_s2(TyS);
if (1) test_smlal_4s_4h_h0(TyH);
if (1) test_smlal_4s_4h_h7(TyH);
if (1) test_smlal2_4s_8h_h1(TyH);
if (1) test_smlal2_4s_8h_h4(TyH);
if (1) test_umlal_2d_2s_s0(TyS);
if (1) test_umlal_2d_2s_s3(TyS);
if (1) test_umlal2_2d_4s_s1(TyS);
if (1) test_umlal2_2d_4s_s2(TyS);
if (1) test_umlal_4s_4h_h0(TyH);
if (1) test_umlal_4s_4h_h7(TyH);
if (1) test_umlal2_4s_8h_h1(TyH);
if (1) test_umlal2_4s_8h_h4(TyH);
if (1) test_smlsl_2d_2s_s0(TyS);
if (1) test_smlsl_2d_2s_s3(TyS);
if (1) test_smlsl2_2d_4s_s1(TyS);
if (1) test_smlsl2_2d_4s_s2(TyS);
if (1) test_smlsl_4s_4h_h0(TyH);
if (1) test_smlsl_4s_4h_h7(TyH);
if (1) test_smlsl2_4s_8h_h1(TyH);
if (1) test_smlsl2_4s_8h_h4(TyH);
if (1) test_umlsl_2d_2s_s0(TyS);
if (1) test_umlsl_2d_2s_s3(TyS);
if (1) test_umlsl2_2d_4s_s1(TyS);
if (1) test_umlsl2_2d_4s_s2(TyS);
if (1) test_umlsl_4s_4h_h0(TyH);
if (1) test_umlsl_4s_4h_h7(TyH);
if (1) test_umlsl2_4s_8h_h1(TyH);
if (1) test_umlsl2_4s_8h_h4(TyH);
if (1) test_smull_2d_2s_s0(TyS);
if (1) test_smull_2d_2s_s3(TyS);
if (1) test_smull2_2d_4s_s1(TyS);
if (1) test_smull2_2d_4s_s2(TyS);
if (1) test_smull_4s_4h_h0(TyH);
if (1) test_smull_4s_4h_h7(TyH);
if (1) test_smull2_4s_8h_h1(TyH);
if (1) test_smull2_4s_8h_h4(TyH);
if (1) test_umull_2d_2s_s0(TyS);
if (1) test_umull_2d_2s_s3(TyS);
if (1) test_umull2_2d_4s_s1(TyS);
if (1) test_umull2_2d_4s_s2(TyS);
if (1) test_umull_4s_4h_h0(TyH);
if (1) test_umull_4s_4h_h7(TyH);
if (1) test_umull2_4s_8h_h1(TyH);
if (1) test_umull2_4s_8h_h4(TyH);
// smlal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
// umlal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
// smlsl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
// umlsl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
// smull{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
// umull{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
if (1) test_smlal_2d_2s_2s(TyS);
if (1) test_smlal2_2d_4s_4s(TyS);
if (1) test_smlal_4s_4h_4h(TyH);
if (1) test_smlal2_4s_8h_8h(TyH);
if (1) test_smlal_8h_8b_8b(TyB);
if (1) test_smlal2_8h_16b_16b(TyB);
if (1) test_umlal_2d_2s_2s(TyS);
if (1) test_umlal2_2d_4s_4s(TyS);
if (1) test_umlal_4s_4h_4h(TyH);
if (1) test_umlal2_4s_8h_8h(TyH);
if (1) test_umlal_8h_8b_8b(TyB);
if (1) test_umlal2_8h_16b_16b(TyB);
if (1) test_smlsl_2d_2s_2s(TyS);
if (1) test_smlsl2_2d_4s_4s(TyS);
if (1) test_smlsl_4s_4h_4h(TyH);
if (1) test_smlsl2_4s_8h_8h(TyH);
if (1) test_smlsl_8h_8b_8b(TyB);
if (1) test_smlsl2_8h_16b_16b(TyB);
if (1) test_umlsl_2d_2s_2s(TyS);
if (1) test_umlsl2_2d_4s_4s(TyS);
if (1) test_umlsl_4s_4h_4h(TyH);
if (1) test_umlsl2_4s_8h_8h(TyH);
if (1) test_umlsl_8h_8b_8b(TyB);
if (1) test_umlsl2_8h_16b_16b(TyB);
if (1) test_smull_2d_2s_2s(TyS);
if (1) test_smull2_2d_4s_4s(TyS);
if (1) test_smull_4s_4h_4h(TyH);
if (1) test_smull2_4s_8h_8h(TyH);
if (1) test_smull_8h_8b_8b(TyB);
if (1) test_smull2_8h_16b_16b(TyB);
if (1) test_umull_2d_2s_2s(TyS);
if (1) test_umull2_2d_4s_4s(TyS);
if (1) test_umull_4s_4h_4h(TyH);
if (1) test_umull2_4s_8h_8h(TyH);
if (1) test_umull_8h_8b_8b(TyB);
if (1) test_umull2_8h_16b_16b(TyB);
// smov w_b[], w_h[], x_b[], x_h[], x_s[]
// umov w_b[], w_h[], w_s[], x_d[]
if (1) test_umov_x_d0(TyD);
if (1) test_umov_x_d1(TyD);
if (1) test_umov_w_s0(TyS);
if (1) test_umov_w_s3(TyS);
if (1) test_umov_w_h0(TyH);
if (1) test_umov_w_h7(TyH);
if (1) test_umov_w_b0(TyB);
if (1) test_umov_w_b15(TyB);
if (1) test_smov_x_s0(TyS);
if (1) test_smov_x_s3(TyS);
if (1) test_smov_x_h0(TyH);
if (1) test_smov_x_h7(TyH);
if (1) test_smov_w_h0(TyH);
if (1) test_smov_w_h7(TyH);
if (1) test_smov_x_b0(TyB);
if (1) test_smov_x_b15(TyB);
if (1) test_smov_w_b0(TyB);
if (1) test_smov_w_b15(TyB);
// sqabs d,s,h,b
// sqneg d,s,h,b
if (1) test_sqabs_d_d(TyD);
if (1) test_sqabs_s_s(TyS);
if (1) test_sqabs_h_h(TyH);
if (1) test_sqabs_b_b(TyB);
if (1) test_sqneg_d_d(TyD);
if (1) test_sqneg_s_s(TyS);
if (1) test_sqneg_h_h(TyH);
if (1) test_sqneg_b_b(TyB);
// sqabs 2d,4s,2s,8h,4h,16b,8b
// sqneg 2d,4s,2s,8h,4h,16b,8b
if (1) test_sqabs_2d_2d(TyD);
if (1) test_sqabs_4s_4s(TyS);
if (1) test_sqabs_2s_2s(TyS);
if (1) test_sqabs_8h_8h(TyH);
if (1) test_sqabs_4h_4h(TyH);
if (1) test_sqabs_16b_16b(TyB);
if (1) test_sqabs_8b_8b(TyB);
if (1) test_sqneg_2d_2d(TyD);
if (1) test_sqneg_4s_4s(TyS);
if (1) test_sqneg_2s_2s(TyS);
if (1) test_sqneg_8h_8h(TyH);
if (1) test_sqneg_4h_4h(TyH);
if (1) test_sqneg_16b_16b(TyB);
if (1) test_sqneg_8b_8b(TyB);
// sqadd d,s,h,b
// uqadd d,s,h,b
// sqsub d,s,h,b
// uqsub d,s,h,b
if (1) test_sqadd_d_d_d(TyD);
if (1) test_sqadd_s_s_s(TyS);
if (1) test_sqadd_h_h_h(TyH);
if (1) test_sqadd_b_b_b(TyB);
if (1) test_uqadd_d_d_d(TyD);
if (1) test_uqadd_s_s_s(TyS);
if (1) test_uqadd_h_h_h(TyH);
if (1) test_uqadd_b_b_b(TyB);
if (1) test_sqsub_d_d_d(TyD);
if (1) test_sqsub_s_s_s(TyS);
if (1) test_sqsub_h_h_h(TyH);
if (1) test_sqsub_b_b_b(TyB);
if (1) test_uqsub_d_d_d(TyD);
if (1) test_uqsub_s_s_s(TyS);
if (1) test_uqsub_h_h_h(TyH);
if (1) test_uqsub_b_b_b(TyB);
// sqadd 2d,4s,2s,8h,4h,16b,8b
// uqadd 2d,4s,2s,8h,4h,16b,8b
// sqsub 2d,4s,2s,8h,4h,16b,8b
// uqsub 2d,4s,2s,8h,4h,16b,8b
if (1) test_sqadd_2d_2d_2d(TyD);
if (1) test_sqadd_4s_4s_4s(TyS);
if (1) test_sqadd_2s_2s_2s(TyS);
if (1) test_sqadd_8h_8h_8h(TyH);
if (1) test_sqadd_4h_4h_4h(TyH);
if (1) test_sqadd_16b_16b_16b(TyB);
if (1) test_sqadd_8b_8b_8b(TyB);
if (1) test_uqadd_2d_2d_2d(TyD);
if (1) test_uqadd_4s_4s_4s(TyS);
if (1) test_uqadd_2s_2s_2s(TyS);
if (1) test_uqadd_8h_8h_8h(TyH);
if (1) test_uqadd_4h_4h_4h(TyH);
if (1) test_uqadd_16b_16b_16b(TyB);
if (1) test_uqadd_8b_8b_8b(TyB);
if (1) test_sqsub_2d_2d_2d(TyD);
if (1) test_sqsub_4s_4s_4s(TyS);
if (1) test_sqsub_2s_2s_2s(TyS);
if (1) test_sqsub_8h_8h_8h(TyH);
if (1) test_sqsub_4h_4h_4h(TyH);
if (1) test_sqsub_16b_16b_16b(TyB);
if (1) test_sqsub_8b_8b_8b(TyB);
if (1) test_uqsub_2d_2d_2d(TyD);
if (1) test_uqsub_4s_4s_4s(TyS);
if (1) test_uqsub_2s_2s_2s(TyS);
if (1) test_uqsub_8h_8h_8h(TyH);
if (1) test_uqsub_4h_4h_4h(TyH);
if (1) test_uqsub_16b_16b_16b(TyB);
if (1) test_uqsub_8b_8b_8b(TyB);
// sqdmlal d_s_s[], s_h_h[]
// sqdmlsl d_s_s[], s_h_h[]
// sqdmull d_s_s[], s_h_h[]
if (1) test_sqdmlal_d_s_s0(TyS);
if (1) test_sqdmlal_d_s_s3(TyS);
if (1) test_sqdmlal_s_h_h1(TyH);
if (1) test_sqdmlal_s_h_h5(TyH);
if (1) test_sqdmlsl_d_s_s0(TyS);
if (1) test_sqdmlsl_d_s_s3(TyS);
if (1) test_sqdmlsl_s_h_h1(TyH);
if (1) test_sqdmlsl_s_h_h5(TyH);
if (1) test_sqdmull_d_s_s0(TyS);
if (1) test_sqdmull_d_s_s3(TyS);
if (1) test_sqdmull_s_h_h1(TyH);
if (1) test_sqdmull_s_h_h5(TyH);
// sqdmlal{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
// sqdmlsl{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
// sqdmull{2} 2d_2s/4s_s[], 4s_4h/2h_h[]
if (1) test_sqdmlal_2d_2s_s0(TyS);
if (1) test_sqdmlal_2d_2s_s3(TyS);
if (1) test_sqdmlal2_2d_4s_s1(TyS);
if (1) test_sqdmlal2_2d_4s_s2(TyS);
if (1) test_sqdmlal_4s_4h_h0(TyH);
if (1) test_sqdmlal_4s_4h_h7(TyH);
if (1) test_sqdmlal2_4s_8h_h1(TyH);
if (1) test_sqdmlal2_4s_8h_h4(TyH);
if (1) test_sqdmlsl_2d_2s_s0(TyS);
if (1) test_sqdmlsl_2d_2s_s3(TyS);
if (1) test_sqdmlsl2_2d_4s_s1(TyS);
if (1) test_sqdmlsl2_2d_4s_s2(TyS);
if (1) test_sqdmlsl_4s_4h_h0(TyH);
if (1) test_sqdmlsl_4s_4h_h7(TyH);
if (1) test_sqdmlsl2_4s_8h_h1(TyH);
if (1) test_sqdmlsl2_4s_8h_h4(TyH);
if (1) test_sqdmull_2d_2s_s0(TyS);
if (1) test_sqdmull_2d_2s_s3(TyS);
if (1) test_sqdmull2_2d_4s_s1(TyS);
if (1) test_sqdmull2_2d_4s_s2(TyS);
if (1) test_sqdmull_4s_4h_h0(TyH);
if (1) test_sqdmull_4s_4h_h7(TyH);
if (1) test_sqdmull2_4s_8h_h1(TyH);
if (1) test_sqdmull2_4s_8h_h4(TyH);
// sqdmlal d_s_s, s_h_h
// sqdmlsl d_s_s, s_h_h
// sqdmull d_s_s, s_h_h
if (1) test_sqdmlal_d_s_s(TyS);
if (1) test_sqdmlal_s_h_h(TyH);
if (1) test_sqdmlsl_d_s_s(TyS);
if (1) test_sqdmlsl_s_h_h(TyH);
if (1) test_sqdmull_d_s_s(TyS);
if (1) test_sqdmull_s_h_h(TyH);
// sqdmlal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h)
// sqdmlsl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h)
// sqdmull{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h)
if (1) test_sqdmlal_2d_2s_2s(TyS);
if (1) test_sqdmlal2_2d_4s_4s(TyS);
if (1) test_sqdmlal_4s_4h_4h(TyH);
if (1) test_sqdmlal2_4s_8h_8h(TyH);
if (1) test_sqdmlsl_2d_2s_2s(TyS);
if (1) test_sqdmlsl2_2d_4s_4s(TyS);
if (1) test_sqdmlsl_4s_4h_4h(TyH);
if (1) test_sqdmlsl2_4s_8h_8h(TyH);
if (1) test_sqdmull_2d_2s_2s(TyS);
if (1) test_sqdmull2_2d_4s_4s(TyS);
if (1) test_sqdmull_4s_4h_4h(TyH);
if (1) test_sqdmull2_4s_8h_8h(TyH);
// sqdmulh s_s_s[], h_h_h[]
// sqrdmulh s_s_s[], h_h_h[]
if (1) test_sqdmulh_s_s_s1(TyS);
if (1) test_sqdmulh_s_s_s3(TyS);
if (1) test_sqdmulh_h_h_h2(TyH);
if (1) test_sqdmulh_h_h_h7(TyH);
if (1) test_sqrdmulh_s_s_s1(TyS);
if (1) test_sqrdmulh_s_s_s3(TyS);
if (1) test_sqrdmulh_h_h_h2(TyH);
if (1) test_sqrdmulh_h_h_h7(TyH);
// sqdmulh 4s_4s_s[], 2s_2s_s[], 8h_8h_h[], 4h_4h_h[]
// sqrdmulh 4s_4s_s[], 2s_2s_s[], 8h_8h_h[], 4h_4h_h[]
if (1) test_sqdmulh_4s_4s_s1(TyS);
if (1) test_sqdmulh_4s_4s_s3(TyS);
if (1) test_sqdmulh_2s_2s_s1(TyS);
if (1) test_sqdmulh_2s_2s_s3(TyS);
if (1) test_sqdmulh_8h_8h_h2(TyH);
if (1) test_sqdmulh_8h_8h_h7(TyH);
if (1) test_sqdmulh_4h_4h_h2(TyH);
if (1) test_sqdmulh_4h_4h_h7(TyH);
if (1) test_sqrdmulh_4s_4s_s1(TyS);
if (1) test_sqrdmulh_4s_4s_s3(TyS);
if (1) test_sqrdmulh_2s_2s_s1(TyS);
if (1) test_sqrdmulh_2s_2s_s3(TyS);
if (1) test_sqrdmulh_8h_8h_h2(TyH);
if (1) test_sqrdmulh_8h_8h_h7(TyH);
if (1) test_sqrdmulh_4h_4h_h2(TyH);
if (1) test_sqrdmulh_4h_4h_h7(TyH);
// sqdmulh h,s
// sqrdmulh h,s
if (1) test_sqdmulh_s_s_s(TyS);
if (1) test_sqdmulh_h_h_h(TyH);
if (1) test_sqrdmulh_s_s_s(TyS);
if (1) test_sqrdmulh_h_h_h(TyH);
// sqdmulh 4s,2s,8h,4h
// sqrdmulh 4s,2s,8h,4h
if (1) test_sqdmulh_4s_4s_4s(TyS);
if (1) test_sqdmulh_2s_2s_2s(TyS);
if (1) test_sqdmulh_8h_8h_8h(TyH);
if (1) test_sqdmulh_4h_4h_4h(TyH);
if (1) test_sqrdmulh_4s_4s_4s(TyS);
if (1) test_sqrdmulh_2s_2s_2s(TyS);
if (1) test_sqrdmulh_8h_8h_8h(TyH);
if (1) test_sqrdmulh_4h_4h_4h(TyH);
// sqshl (reg) d,s,h,b
// uqshl (reg) d,s,h,b
// sqrshl (reg) d,s,h,b
// uqrshl (reg) d,s,h,b
if (1) test_sqshl_d_d_d(TyD);
if (1) test_sqshl_s_s_s(TyS);
if (1) test_sqshl_h_h_h(TyH);
if (1) test_sqshl_b_b_b(TyB);
if (1) test_uqshl_d_d_d(TyD);
if (1) test_uqshl_s_s_s(TyS);
if (1) test_uqshl_h_h_h(TyH);
if (1) test_uqshl_b_b_b(TyB);
if (1) test_sqrshl_d_d_d(TyD);
if (1) test_sqrshl_s_s_s(TyS);
if (1) test_sqrshl_h_h_h(TyH);
if (1) test_sqrshl_b_b_b(TyB);
if (1) test_uqrshl_d_d_d(TyD);
if (1) test_uqrshl_s_s_s(TyS);
if (1) test_uqrshl_h_h_h(TyH);
if (1) test_uqrshl_b_b_b(TyB);
// sqshl (reg) 2d,4s,2s,8h,4h,16b,8b
// uqshl (reg) 2d,4s,2s,8h,4h,16b,8b
// sqrshl (reg) 2d,4s,2s,8h,4h,16b,8b
// uqrshl (reg) 2d,4s,2s,8h,4h,16b,8b
if (1) test_sqshl_2d_2d_2d(TyD);
if (1) test_sqshl_4s_4s_4s(TyS);
if (1) test_sqshl_2s_2s_2s(TyS);
if (1) test_sqshl_8h_8h_8h(TyH);
if (1) test_sqshl_4h_4h_4h(TyH);
if (1) test_sqshl_16b_16b_16b(TyB);
if (1) test_sqshl_8b_8b_8b(TyB);
if (1) test_uqshl_2d_2d_2d(TyD);
if (1) test_uqshl_4s_4s_4s(TyS);
if (1) test_uqshl_2s_2s_2s(TyS);
if (1) test_uqshl_8h_8h_8h(TyH);
if (1) test_uqshl_4h_4h_4h(TyH);
if (1) test_uqshl_16b_16b_16b(TyB);
if (1) test_uqshl_8b_8b_8b(TyB);
if (1) test_sqrshl_2d_2d_2d(TyD);
if (1) test_sqrshl_4s_4s_4s(TyS);
if (1) test_sqrshl_2s_2s_2s(TyS);
if (1) test_sqrshl_8h_8h_8h(TyH);
if (1) test_sqrshl_4h_4h_4h(TyH);
if (1) test_sqrshl_16b_16b_16b(TyB);
if (1) test_sqrshl_8b_8b_8b(TyB);
if (1) test_uqrshl_2d_2d_2d(TyD);
if (1) test_uqrshl_4s_4s_4s(TyS);
if (1) test_uqrshl_2s_2s_2s(TyS);
if (1) test_uqrshl_8h_8h_8h(TyH);
if (1) test_uqrshl_4h_4h_4h(TyH);
if (1) test_uqrshl_16b_16b_16b(TyB);
if (1) test_uqrshl_8b_8b_8b(TyB);
// sqrshrn s_d, h_s, b_h #imm
// uqrshrn s_d, h_s, b_h #imm
// sqshrn s_d, h_s, b_h #imm
// uqshrn s_d, h_s, b_h #imm
// sqrshrun s_d, h_s, b_h #imm
// sqshrun s_d, h_s, b_h #imm
if (1) test_sqrshrn_s_d_1(TyD);
if (1) test_sqrshrn_s_d_17(TyD);
if (1) test_sqrshrn_s_d_32(TyD);
if (1) test_sqrshrn_h_s_1(TyS);
if (1) test_sqrshrn_h_s_9(TyS);
if (1) test_sqrshrn_h_s_16(TyS);
if (1) test_sqrshrn_b_h_1(TyH);
if (1) test_sqrshrn_b_h_4(TyH);
if (1) test_sqrshrn_b_h_8(TyH);
if (1) test_uqrshrn_s_d_1(TyD);
if (1) test_uqrshrn_s_d_17(TyD);
if (1) test_uqrshrn_s_d_32(TyD);
if (1) test_uqrshrn_h_s_1(TyS);
if (1) test_uqrshrn_h_s_9(TyS);
if (1) test_uqrshrn_h_s_16(TyS);
if (1) test_uqrshrn_b_h_1(TyH);
if (1) test_uqrshrn_b_h_4(TyH);
if (1) test_uqrshrn_b_h_8(TyH);
if (1) test_sqshrn_s_d_1(TyD);
if (1) test_sqshrn_s_d_17(TyD);
if (1) test_sqshrn_s_d_32(TyD);
if (1) test_sqshrn_h_s_1(TyS);
if (1) test_sqshrn_h_s_9(TyS);
if (1) test_sqshrn_h_s_16(TyS);
if (1) test_sqshrn_b_h_1(TyH);
if (1) test_sqshrn_b_h_4(TyH);
if (1) test_sqshrn_b_h_8(TyH);
if (1) test_uqshrn_s_d_1(TyD);
if (1) test_uqshrn_s_d_17(TyD);
if (1) test_uqshrn_s_d_32(TyD);
if (1) test_uqshrn_h_s_1(TyS);
if (1) test_uqshrn_h_s_9(TyS);
if (1) test_uqshrn_h_s_16(TyS);
if (1) test_uqshrn_b_h_1(TyH);
if (1) test_uqshrn_b_h_4(TyH);
if (1) test_uqshrn_b_h_8(TyH);
if (1) test_sqrshrun_s_d_1(TyD);
if (1) test_sqrshrun_s_d_17(TyD);
if (1) test_sqrshrun_s_d_32(TyD);
if (1) test_sqrshrun_h_s_1(TyS);
if (1) test_sqrshrun_h_s_9(TyS);
if (1) test_sqrshrun_h_s_16(TyS);
if (1) test_sqrshrun_b_h_1(TyH);
if (1) test_sqrshrun_b_h_4(TyH);
if (1) test_sqrshrun_b_h_8(TyH);
if (1) test_sqshrun_s_d_1(TyD);
if (1) test_sqshrun_s_d_17(TyD);
if (1) test_sqshrun_s_d_32(TyD);
if (1) test_sqshrun_h_s_1(TyS);
if (1) test_sqshrun_h_s_9(TyS);
if (1) test_sqshrun_h_s_16(TyS);
if (1) test_sqshrun_b_h_1(TyH);
if (1) test_sqshrun_b_h_4(TyH);
if (1) test_sqshrun_b_h_8(TyH);
// sqrshrn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
// uqrshrn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
// sqshrn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
// uqshrn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
// sqrshrun{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
// sqshrun{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
if (1) test_sqrshrn_2s_2d_1(TyD);
if (1) test_sqrshrn_2s_2d_17(TyD);
if (1) test_sqrshrn_2s_2d_32(TyD);
if (1) test_sqrshrn2_4s_2d_1(TyD);
if (1) test_sqrshrn2_4s_2d_17(TyD);
if (1) test_sqrshrn2_4s_2d_32(TyD);
if (1) test_sqrshrn_4h_4s_1(TyS);
if (1) test_sqrshrn_4h_4s_9(TyS);
if (1) test_sqrshrn_4h_4s_16(TyS);
if (1) test_sqrshrn2_8h_4s_1(TyS);
if (1) test_sqrshrn2_8h_4s_9(TyS);
if (1) test_sqrshrn2_8h_4s_16(TyS);
if (1) test_sqrshrn_8b_8h_1(TyH);
if (1) test_sqrshrn_8b_8h_4(TyH);
if (1) test_sqrshrn_8b_8h_8(TyH);
if (1) test_sqrshrn2_16b_8h_1(TyH);
if (1) test_sqrshrn2_16b_8h_4(TyH);
if (1) test_sqrshrn2_16b_8h_8(TyH);
if (1) test_uqrshrn_2s_2d_1(TyD);
if (1) test_uqrshrn_2s_2d_17(TyD);
if (1) test_uqrshrn_2s_2d_32(TyD);
if (1) test_uqrshrn2_4s_2d_1(TyD);
if (1) test_uqrshrn2_4s_2d_17(TyD);
if (1) test_uqrshrn2_4s_2d_32(TyD);
if (1) test_uqrshrn_4h_4s_1(TyS);
if (1) test_uqrshrn_4h_4s_9(TyS);
if (1) test_uqrshrn_4h_4s_16(TyS);
if (1) test_uqrshrn2_8h_4s_1(TyS);
if (1) test_uqrshrn2_8h_4s_9(TyS);
if (1) test_uqrshrn2_8h_4s_16(TyS);
if (1) test_uqrshrn_8b_8h_1(TyH);
if (1) test_uqrshrn_8b_8h_4(TyH);
if (1) test_uqrshrn_8b_8h_8(TyH);
if (1) test_uqrshrn2_16b_8h_1(TyH);
if (1) test_uqrshrn2_16b_8h_4(TyH);
if (1) test_uqrshrn2_16b_8h_8(TyH);
if (1) test_sqshrn_2s_2d_1(TyD);
if (1) test_sqshrn_2s_2d_17(TyD);
if (1) test_sqshrn_2s_2d_32(TyD);
if (1) test_sqshrn2_4s_2d_1(TyD);
if (1) test_sqshrn2_4s_2d_17(TyD);
if (1) test_sqshrn2_4s_2d_32(TyD);
if (1) test_sqshrn_4h_4s_1(TyS);
if (1) test_sqshrn_4h_4s_9(TyS);
if (1) test_sqshrn_4h_4s_16(TyS);
if (1) test_sqshrn2_8h_4s_1(TyS);
if (1) test_sqshrn2_8h_4s_9(TyS);
if (1) test_sqshrn2_8h_4s_16(TyS);
if (1) test_sqshrn_8b_8h_1(TyH);
if (1) test_sqshrn_8b_8h_4(TyH);
if (1) test_sqshrn_8b_8h_8(TyH);
if (1) test_sqshrn2_16b_8h_1(TyH);
if (1) test_sqshrn2_16b_8h_4(TyH);
if (1) test_sqshrn2_16b_8h_8(TyH);
if (1) test_uqshrn_2s_2d_1(TyD);
if (1) test_uqshrn_2s_2d_17(TyD);
if (1) test_uqshrn_2s_2d_32(TyD);
if (1) test_uqshrn2_4s_2d_1(TyD);
if (1) test_uqshrn2_4s_2d_17(TyD);
if (1) test_uqshrn2_4s_2d_32(TyD);
if (1) test_uqshrn_4h_4s_1(TyS);
if (1) test_uqshrn_4h_4s_9(TyS);
if (1) test_uqshrn_4h_4s_16(TyS);
if (1) test_uqshrn2_8h_4s_1(TyS);
if (1) test_uqshrn2_8h_4s_9(TyS);
if (1) test_uqshrn2_8h_4s_16(TyS);
if (1) test_uqshrn_8b_8h_1(TyH);
if (1) test_uqshrn_8b_8h_4(TyH);
if (1) test_uqshrn_8b_8h_8(TyH);
if (1) test_uqshrn2_16b_8h_1(TyH);
if (1) test_uqshrn2_16b_8h_4(TyH);
if (1) test_uqshrn2_16b_8h_8(TyH);
if (1) test_sqrshrun_2s_2d_1(TyD);
if (1) test_sqrshrun_2s_2d_17(TyD);
if (1) test_sqrshrun_2s_2d_32(TyD);
if (1) test_sqrshrun2_4s_2d_1(TyD);
if (1) test_sqrshrun2_4s_2d_17(TyD);
if (1) test_sqrshrun2_4s_2d_32(TyD);
if (1) test_sqrshrun_4h_4s_1(TyS);
if (1) test_sqrshrun_4h_4s_9(TyS);
if (1) test_sqrshrun_4h_4s_16(TyS);
if (1) test_sqrshrun2_8h_4s_1(TyS);
if (1) test_sqrshrun2_8h_4s_9(TyS);
if (1) test_sqrshrun2_8h_4s_16(TyS);
if (1) test_sqrshrun_8b_8h_1(TyH);
if (1) test_sqrshrun_8b_8h_4(TyH);
if (1) test_sqrshrun_8b_8h_8(TyH);
if (1) test_sqrshrun2_16b_8h_1(TyH);
if (1) test_sqrshrun2_16b_8h_4(TyH);
if (1) test_sqrshrun2_16b_8h_8(TyH);
if (1) test_sqshrun_2s_2d_1(TyD);
if (1) test_sqshrun_2s_2d_17(TyD);
if (1) test_sqshrun_2s_2d_32(TyD);
if (1) test_sqshrun2_4s_2d_1(TyD);
if (1) test_sqshrun2_4s_2d_17(TyD);
if (1) test_sqshrun2_4s_2d_32(TyD);
if (1) test_sqshrun_4h_4s_1(TyS);
if (1) test_sqshrun_4h_4s_9(TyS);
if (1) test_sqshrun_4h_4s_16(TyS);
if (1) test_sqshrun2_8h_4s_1(TyS);
if (1) test_sqshrun2_8h_4s_9(TyS);
if (1) test_sqshrun2_8h_4s_16(TyS);
if (1) test_sqshrun_8b_8h_1(TyH);
if (1) test_sqshrun_8b_8h_4(TyH);
if (1) test_sqshrun_8b_8h_8(TyH);
if (1) test_sqshrun2_16b_8h_1(TyH);
if (1) test_sqshrun2_16b_8h_4(TyH);
if (1) test_sqshrun2_16b_8h_8(TyH);
// sqshl (imm) d,s,h,b _#imm
// uqshl (imm) d,s,h,b _#imm
// sqshlu (imm) d,s,h,b _#imm
if (1) test_sqshl_d_d_0(TyD);
if (1) test_sqshl_d_d_32(TyD);
if (1) test_sqshl_d_d_63(TyD);
if (1) test_sqshl_s_s_0(TyS);
if (1) test_sqshl_s_s_16(TyS);
if (1) test_sqshl_s_s_31(TyS);
if (1) test_sqshl_h_h_0(TyH);
if (1) test_sqshl_h_h_8(TyH);
if (1) test_sqshl_h_h_15(TyH);
if (1) test_sqshl_b_b_0(TyB);
if (1) test_sqshl_b_b_1(TyB);
if (1) test_sqshl_b_b_4(TyB);
if (1) test_sqshl_b_b_6(TyB);
if (1) test_sqshl_b_b_7(TyB);
if (1) test_uqshl_d_d_0(TyD);
if (1) test_uqshl_d_d_32(TyD);
if (1) test_uqshl_d_d_63(TyD);
if (1) test_uqshl_s_s_0(TyS);
if (1) test_uqshl_s_s_16(TyS);
if (1) test_uqshl_s_s_31(TyS);
if (1) test_uqshl_h_h_0(TyH);
if (1) test_uqshl_h_h_8(TyH);
if (1) test_uqshl_h_h_15(TyH);
if (1) test_uqshl_b_b_0(TyB);
if (1) test_uqshl_b_b_1(TyB);
if (1) test_uqshl_b_b_4(TyB);
if (1) test_uqshl_b_b_6(TyB);
if (1) test_uqshl_b_b_7(TyB);
if (1) test_sqshlu_d_d_0(TyD);
if (1) test_sqshlu_d_d_32(TyD);
if (1) test_sqshlu_d_d_63(TyD);
if (1) test_sqshlu_s_s_0(TyS);
if (1) test_sqshlu_s_s_16(TyS);
if (1) test_sqshlu_s_s_31(TyS);
if (1) test_sqshlu_h_h_0(TyH);
if (1) test_sqshlu_h_h_8(TyH);
if (1) test_sqshlu_h_h_15(TyH);
if (1) test_sqshlu_b_b_0(TyB);
if (1) test_sqshlu_b_b_1(TyB);
if (1) test_sqshlu_b_b_2(TyB);
if (1) test_sqshlu_b_b_3(TyB);
if (1) test_sqshlu_b_b_4(TyB);
if (1) test_sqshlu_b_b_5(TyB);
if (1) test_sqshlu_b_b_6(TyB);
if (1) test_sqshlu_b_b_7(TyB);
// sqshl (imm) 2d,4s,2s,8h,4h,16b,8b _#imm
// uqshl (imm) 2d,4s,2s,8h,4h,16b,8b _#imm
// sqshlu (imm) 2d,4s,2s,8h,4h,16b,8b _#imm
if (1) test_sqshl_2d_2d_0(TyD);
if (1) test_sqshl_2d_2d_32(TyD);
if (1) test_sqshl_2d_2d_63(TyD);
if (1) test_sqshl_4s_4s_0(TyS);
if (1) test_sqshl_4s_4s_16(TyS);
if (1) test_sqshl_4s_4s_31(TyS);
if (1) test_sqshl_2s_2s_0(TyS);
if (1) test_sqshl_2s_2s_16(TyS);
if (1) test_sqshl_2s_2s_31(TyS);
if (1) test_sqshl_8h_8h_0(TyH);
if (1) test_sqshl_8h_8h_8(TyH);
if (1) test_sqshl_8h_8h_15(TyH);
if (1) test_sqshl_4h_4h_0(TyH);
if (1) test_sqshl_4h_4h_8(TyH);
if (1) test_sqshl_4h_4h_15(TyH);
if (1) test_sqshl_16b_16b_0(TyB);
if (1) test_sqshl_16b_16b_3(TyB);
if (1) test_sqshl_16b_16b_7(TyB);
if (1) test_sqshl_8b_8b_0(TyB);
if (1) test_sqshl_8b_8b_3(TyB);
if (1) test_sqshl_8b_8b_7(TyB);
if (1) test_uqshl_2d_2d_0(TyD);
if (1) test_uqshl_2d_2d_32(TyD);
if (1) test_uqshl_2d_2d_63(TyD);
if (1) test_uqshl_4s_4s_0(TyS);
if (1) test_uqshl_4s_4s_16(TyS);
if (1) test_uqshl_4s_4s_31(TyS);
if (1) test_uqshl_2s_2s_0(TyS);
if (1) test_uqshl_2s_2s_16(TyS);
if (1) test_uqshl_2s_2s_31(TyS);
if (1) test_uqshl_8h_8h_0(TyH);
if (1) test_uqshl_8h_8h_8(TyH);
if (1) test_uqshl_8h_8h_15(TyH);
if (1) test_uqshl_4h_4h_0(TyH);
if (1) test_uqshl_4h_4h_8(TyH);
if (1) test_uqshl_4h_4h_15(TyH);
if (1) test_uqshl_16b_16b_0(TyB);
if (1) test_uqshl_16b_16b_3(TyB);
if (1) test_uqshl_16b_16b_7(TyB);
if (1) test_uqshl_8b_8b_0(TyB);
if (1) test_uqshl_8b_8b_3(TyB);
if (1) test_uqshl_8b_8b_7(TyB);
if (1) test_sqshlu_2d_2d_0(TyD);
if (1) test_sqshlu_2d_2d_32(TyD);
if (1) test_sqshlu_2d_2d_63(TyD);
if (1) test_sqshlu_4s_4s_0(TyS);
if (1) test_sqshlu_4s_4s_16(TyS);
if (1) test_sqshlu_4s_4s_31(TyS);
if (1) test_sqshlu_2s_2s_0(TyS);
if (1) test_sqshlu_2s_2s_16(TyS);
if (1) test_sqshlu_2s_2s_31(TyS);
if (1) test_sqshlu_8h_8h_0(TyH);
if (1) test_sqshlu_8h_8h_8(TyH);
if (1) test_sqshlu_8h_8h_15(TyH);
if (1) test_sqshlu_4h_4h_0(TyH);
if (1) test_sqshlu_4h_4h_8(TyH);
if (1) test_sqshlu_4h_4h_15(TyH);
if (1) test_sqshlu_16b_16b_0(TyB);
if (1) test_sqshlu_16b_16b_3(TyB);
if (1) test_sqshlu_16b_16b_7(TyB);
if (1) test_sqshlu_8b_8b_0(TyB);
if (1) test_sqshlu_8b_8b_3(TyB);
if (1) test_sqshlu_8b_8b_7(TyB);
// sqxtn s_d,h_s,b_h
// uqxtn s_d,h_s,b_h
// sqxtun s_d,h_s,b_h
if (1) test_sqxtn_s_d(TyD);
if (1) test_sqxtn_h_s(TyS);
if (1) test_sqxtn_b_h(TyH);
if (1) test_uqxtn_s_d(TyD);
if (1) test_uqxtn_h_s(TyS);
if (1) test_uqxtn_b_h(TyH);
if (1) test_sqxtun_s_d(TyD);
if (1) test_sqxtun_h_s(TyS);
if (1) test_sqxtun_b_h(TyH);
// sqxtn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h
// uqxtn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h
// sqxtun{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h
if (1) test_sqxtn_2s_2d(TyD);
if (1) test_sqxtn2_4s_2d(TyD);
if (1) test_sqxtn_4h_4s(TyS);
if (1) test_sqxtn2_8h_4s(TyS);
if (1) test_sqxtn_8b_8h(TyH);
if (1) test_sqxtn2_16b_8h(TyH);
if (1) test_uqxtn_2s_2d(TyD);
if (1) test_uqxtn2_4s_2d(TyD);
if (1) test_uqxtn_4h_4s(TyS);
if (1) test_uqxtn2_8h_4s(TyS);
if (1) test_uqxtn_8b_8h(TyH);
if (1) test_uqxtn2_16b_8h(TyH);
if (1) test_sqxtun_2s_2d(TyD);
if (1) test_sqxtun2_4s_2d(TyD);
if (1) test_sqxtun_4h_4s(TyS);
if (1) test_sqxtun2_8h_4s(TyS);
if (1) test_sqxtun_8b_8h(TyH);
if (1) test_sqxtun2_16b_8h(TyH);
// srhadd 4s,2s,8h,4h,16b,8b
// urhadd 4s,2s,8h,4h,16b,8b
if (1) test_srhadd_4s_4s_4s(TyS);
if (1) test_srhadd_2s_2s_2s(TyS);
if (1) test_srhadd_8h_8h_8h(TyH);
if (1) test_srhadd_4h_4h_4h(TyH);
if (1) test_srhadd_16b_16b_16b(TyB);
if (1) test_srhadd_8b_8b_8b(TyB);
if (1) test_urhadd_4s_4s_4s(TyS);
if (1) test_urhadd_2s_2s_2s(TyS);
if (1) test_urhadd_8h_8h_8h(TyH);
if (1) test_urhadd_4h_4h_4h(TyH);
if (1) test_urhadd_16b_16b_16b(TyB);
if (1) test_urhadd_8b_8b_8b(TyB);
// sshl (reg) d
// ushl (reg) d
if (1) test_sshl_d_d_d(TyD);
if (1) test_ushl_d_d_d(TyD);
// sshl (reg) 2d,4s,2s,8h,4h,16b,8b
// ushl (reg) 2d,4s,2s,8h,4h,16b,8b
if (1) test_sshl_2d_2d_2d(TyD);
if (1) test_sshl_4s_4s_4s(TyS);
if (1) test_sshl_2s_2s_2s(TyS);
if (1) test_sshl_8h_8h_8h(TyH);
if (1) test_sshl_4h_4h_4h(TyH);
if (1) test_sshl_16b_16b_16b(TyB);
if (1) test_sshl_8b_8b_8b(TyB);
if (1) test_ushl_2d_2d_2d(TyD);
if (1) test_ushl_4s_4s_4s(TyS);
if (1) test_ushl_2s_2s_2s(TyS);
if (1) test_ushl_8h_8h_8h(TyH);
if (1) test_ushl_4h_4h_4h(TyH);
if (1) test_ushl_16b_16b_16b(TyB);
if (1) test_ushl_8b_8b_8b(TyB);
// shl (imm) d
// sshr (imm) d
// ushr (imm) d
if (1) test_shl_d_d_0(TyD);
if (1) test_shl_d_d_32(TyD);
if (1) test_shl_d_d_63(TyD);
if (1) test_sshr_d_d_1(TyD);
if (1) test_sshr_d_d_32(TyD);
if (1) test_sshr_d_d_64(TyD);
if (1) test_ushr_d_d_1(TyD);
if (1) test_ushr_d_d_32(TyD);
if (1) test_ushr_d_d_64(TyD);
// shl (imm) 16b,8b,8h,4h,4s,2s,2d
// sshr (imm) 2d,4s,2s,8h,4h,16b,8b
// ushr (imm) 2d,4s,2s,8h,4h,16b,8b
if (1) test_shl_2d_2d_0(TyD);
if (1) test_shl_2d_2d_13(TyD);
if (1) test_shl_2d_2d_63(TyD);
if (1) test_shl_4s_4s_0(TyS);
if (1) test_shl_4s_4s_13(TyS);
if (1) test_shl_4s_4s_31(TyS);
if (1) test_shl_2s_2s_0(TyS);
if (1) test_shl_2s_2s_13(TyS);
if (1) test_shl_2s_2s_31(TyS);
if (1) test_shl_8h_8h_0(TyH);
if (1) test_shl_8h_8h_13(TyH);
if (1) test_shl_8h_8h_15(TyH);
if (1) test_shl_4h_4h_0(TyH);
if (1) test_shl_4h_4h_13(TyH);
if (1) test_shl_4h_4h_15(TyH);
if (1) test_shl_16b_16b_0(TyB);
if (1) test_shl_16b_16b_7(TyB);
if (1) test_shl_8b_8b_0(TyB);
if (1) test_shl_8b_8b_7(TyB);
if (1) test_sshr_2d_2d_1(TyD);
if (1) test_sshr_2d_2d_13(TyD);
if (1) test_sshr_2d_2d_64(TyD);
if (1) test_sshr_4s_4s_1(TyS);
if (1) test_sshr_4s_4s_13(TyS);
if (1) test_sshr_4s_4s_32(TyS);
if (1) test_sshr_2s_2s_1(TyS);
if (1) test_sshr_2s_2s_13(TyS);
if (1) test_sshr_2s_2s_32(TyS);
if (1) test_sshr_8h_8h_1(TyH);
if (1) test_sshr_8h_8h_13(TyH);
if (1) test_sshr_8h_8h_16(TyH);
if (1) test_sshr_4h_4h_1(TyH);
if (1) test_sshr_4h_4h_13(TyH);
if (1) test_sshr_4h_4h_16(TyH);
if (1) test_sshr_16b_16b_1(TyB);
if (1) test_sshr_16b_16b_8(TyB);
if (1) test_sshr_8b_8b_1(TyB);
if (1) test_sshr_8b_8b_8(TyB);
if (1) test_ushr_2d_2d_1(TyD);
if (1) test_ushr_2d_2d_13(TyD);
if (1) test_ushr_2d_2d_64(TyD);
if (1) test_ushr_4s_4s_1(TyS);
if (1) test_ushr_4s_4s_13(TyS);
if (1) test_ushr_4s_4s_32(TyS);
if (1) test_ushr_2s_2s_1(TyS);
if (1) test_ushr_2s_2s_13(TyS);
if (1) test_ushr_2s_2s_32(TyS);
if (1) test_ushr_8h_8h_1(TyH);
if (1) test_ushr_8h_8h_13(TyH);
if (1) test_ushr_8h_8h_16(TyH);
if (1) test_ushr_4h_4h_1(TyH);
if (1) test_ushr_4h_4h_13(TyH);
if (1) test_ushr_4h_4h_16(TyH);
if (1) test_ushr_16b_16b_1(TyB);
if (1) test_ushr_16b_16b_8(TyB);
if (1) test_ushr_8b_8b_1(TyB);
if (1) test_ushr_8b_8b_8(TyB);
// ssra (imm) d
// usra (imm) d
if (1) test_ssra_d_d_1(TyD);
if (1) test_ssra_d_d_32(TyD);
if (1) test_ssra_d_d_64(TyD);
if (1) test_usra_d_d_1(TyD);
if (1) test_usra_d_d_32(TyD);
if (1) test_usra_d_d_64(TyD);
// ssra (imm) 2d,4s,2s,8h,4h,16b,8b
// usra (imm) 2d,4s,2s,8h,4h,16b,8b
if (1) test_ssra_2d_2d_1(TyD);
if (1) test_ssra_2d_2d_32(TyD);
if (1) test_ssra_2d_2d_64(TyD);
if (1) test_ssra_4s_4s_1(TyS);
if (1) test_ssra_4s_4s_16(TyS);
if (1) test_ssra_4s_4s_32(TyS);
if (1) test_ssra_2s_2s_1(TyS);
if (1) test_ssra_2s_2s_16(TyS);
if (1) test_ssra_2s_2s_32(TyS);
if (1) test_ssra_8h_8h_1(TyH);
if (1) test_ssra_8h_8h_8(TyH);
if (1) test_ssra_8h_8h_16(TyH);
if (1) test_ssra_4h_4h_1(TyH);
if (1) test_ssra_4h_4h_8(TyH);
if (1) test_ssra_4h_4h_16(TyH);
if (1) test_ssra_16b_16b_1(TyB);
if (1) test_ssra_16b_16b_3(TyB);
if (1) test_ssra_16b_16b_8(TyB);
if (1) test_ssra_8b_8b_1(TyB);
if (1) test_ssra_8b_8b_3(TyB);
if (1) test_ssra_8b_8b_8(TyB);
if (1) test_usra_2d_2d_1(TyD);
if (1) test_usra_2d_2d_32(TyD);
if (1) test_usra_2d_2d_64(TyD);
if (1) test_usra_4s_4s_1(TyS);
if (1) test_usra_4s_4s_16(TyS);
if (1) test_usra_4s_4s_32(TyS);
if (1) test_usra_2s_2s_1(TyS);
if (1) test_usra_2s_2s_16(TyS);
if (1) test_usra_2s_2s_32(TyS);
if (1) test_usra_8h_8h_1(TyH);
if (1) test_usra_8h_8h_8(TyH);
if (1) test_usra_8h_8h_16(TyH);
if (1) test_usra_4h_4h_1(TyH);
if (1) test_usra_4h_4h_8(TyH);
if (1) test_usra_4h_4h_16(TyH);
if (1) test_usra_16b_16b_1(TyB);
if (1) test_usra_16b_16b_3(TyB);
if (1) test_usra_16b_16b_8(TyB);
if (1) test_usra_8b_8b_1(TyB);
if (1) test_usra_8b_8b_3(TyB);
if (1) test_usra_8b_8b_8(TyB);
// srshl (reg) d
// urshl (reg) d
if (1) test_srshl_d_d_d(TyD);
if (1) test_urshl_d_d_d(TyD);
// srshl (reg) 2d,4s,2s,8h,4h,16b,8b
// urshl (reg) 2d,4s,2s,8h,4h,16b,8b
if (1) test_srshl_2d_2d_2d(TyD);
if (1) test_srshl_4s_4s_4s(TyS);
if (1) test_srshl_2s_2s_2s(TyS);
if (1) test_srshl_8h_8h_8h(TyH);
if (1) test_srshl_4h_4h_4h(TyH);
if (1) test_srshl_16b_16b_16b(TyB);
if (1) test_srshl_8b_8b_8b(TyB);
if (1) test_urshl_2d_2d_2d(TyD);
if (1) test_urshl_4s_4s_4s(TyS);
if (1) test_urshl_2s_2s_2s(TyS);
if (1) test_urshl_8h_8h_8h(TyH);
if (1) test_urshl_4h_4h_4h(TyH);
if (1) test_urshl_16b_16b_16b(TyB);
if (1) test_urshl_8b_8b_8b(TyB);
// srshr (imm) d
// urshr (imm) d
if (1) test_srshr_d_d_1(TyD);
if (1) test_srshr_d_d_32(TyD);
if (1) test_srshr_d_d_64(TyD);
if (1) test_urshr_d_d_1(TyD);
if (1) test_urshr_d_d_32(TyD);
if (1) test_urshr_d_d_64(TyD);
// srshr (imm) 2d,4s,2s,8h,4h,16b,8b
// urshr (imm) 2d,4s,2s,8h,4h,16b,8b
if (1) test_srshr_2d_2d_1(TyD);
if (1) test_srshr_2d_2d_32(TyD);
if (1) test_srshr_2d_2d_64(TyD);
if (1) test_srshr_4s_4s_1(TyS);
if (1) test_srshr_4s_4s_16(TyS);
if (1) test_srshr_4s_4s_32(TyS);
if (1) test_srshr_2s_2s_1(TyS);
if (1) test_srshr_2s_2s_16(TyS);
if (1) test_srshr_2s_2s_32(TyS);
if (1) test_srshr_8h_8h_1(TyH);
if (1) test_srshr_8h_8h_8(TyH);
if (1) test_srshr_8h_8h_16(TyH);
if (1) test_srshr_4h_4h_1(TyH);
if (1) test_srshr_4h_4h_8(TyH);
if (1) test_srshr_4h_4h_16(TyH);
if (1) test_srshr_16b_16b_1(TyB);
if (1) test_srshr_16b_16b_3(TyB);
if (1) test_srshr_16b_16b_8(TyB);
if (1) test_srshr_8b_8b_1(TyB);
if (1) test_srshr_8b_8b_3(TyB);
if (1) test_srshr_8b_8b_8(TyB);
if (1) test_urshr_2d_2d_1(TyD);
if (1) test_urshr_2d_2d_32(TyD);
if (1) test_urshr_2d_2d_64(TyD);
if (1) test_urshr_4s_4s_1(TyS);
if (1) test_urshr_4s_4s_16(TyS);
if (1) test_urshr_4s_4s_32(TyS);
if (1) test_urshr_2s_2s_1(TyS);
if (1) test_urshr_2s_2s_16(TyS);
if (1) test_urshr_2s_2s_32(TyS);
if (1) test_urshr_8h_8h_1(TyH);
if (1) test_urshr_8h_8h_8(TyH);
if (1) test_urshr_8h_8h_16(TyH);
if (1) test_urshr_4h_4h_1(TyH);
if (1) test_urshr_4h_4h_8(TyH);
if (1) test_urshr_4h_4h_16(TyH);
if (1) test_urshr_16b_16b_1(TyB);
if (1) test_urshr_16b_16b_3(TyB);
if (1) test_urshr_16b_16b_8(TyB);
if (1) test_urshr_8b_8b_1(TyB);
if (1) test_urshr_8b_8b_3(TyB);
if (1) test_urshr_8b_8b_8(TyB);
// srsra (imm) d
// ursra (imm) d
if (1) test_srsra_d_d_1(TyD);
if (1) test_srsra_d_d_32(TyD);
if (1) test_srsra_d_d_64(TyD);
if (1) test_ursra_d_d_1(TyD);
if (1) test_ursra_d_d_32(TyD);
if (1) test_ursra_d_d_64(TyD);
// srsra (imm) 2d,4s,2s,8h,4h,16b,8b
// ursra (imm) 2d,4s,2s,8h,4h,16b,8b
if (1) test_srsra_2d_2d_1(TyD);
if (1) test_srsra_2d_2d_32(TyD);
if (1) test_srsra_2d_2d_64(TyD);
if (1) test_srsra_4s_4s_1(TyS);
if (1) test_srsra_4s_4s_16(TyS);
if (1) test_srsra_4s_4s_32(TyS);
if (1) test_srsra_2s_2s_1(TyS);
if (1) test_srsra_2s_2s_16(TyS);
if (1) test_srsra_2s_2s_32(TyS);
if (1) test_srsra_8h_8h_1(TyH);
if (1) test_srsra_8h_8h_8(TyH);
if (1) test_srsra_8h_8h_16(TyH);
if (1) test_srsra_4h_4h_1(TyH);
if (1) test_srsra_4h_4h_8(TyH);
if (1) test_srsra_4h_4h_16(TyH);
if (1) test_srsra_16b_16b_1(TyB);
if (1) test_srsra_16b_16b_3(TyB);
if (1) test_srsra_16b_16b_8(TyB);
if (1) test_srsra_8b_8b_1(TyB);
if (1) test_srsra_8b_8b_3(TyB);
if (1) test_srsra_8b_8b_8(TyB);
if (1) test_ursra_2d_2d_1(TyD);
if (1) test_ursra_2d_2d_32(TyD);
if (1) test_ursra_2d_2d_64(TyD);
if (1) test_ursra_4s_4s_1(TyS);
if (1) test_ursra_4s_4s_16(TyS);
if (1) test_ursra_4s_4s_32(TyS);
if (1) test_ursra_2s_2s_1(TyS);
if (1) test_ursra_2s_2s_16(TyS);
if (1) test_ursra_2s_2s_32(TyS);
if (1) test_ursra_8h_8h_1(TyH);
if (1) test_ursra_8h_8h_8(TyH);
if (1) test_ursra_8h_8h_16(TyH);
if (1) test_ursra_4h_4h_1(TyH);
if (1) test_ursra_4h_4h_8(TyH);
if (1) test_ursra_4h_4h_16(TyH);
if (1) test_ursra_16b_16b_1(TyB);
if (1) test_ursra_16b_16b_3(TyB);
if (1) test_ursra_16b_16b_8(TyB);
if (1) test_ursra_8b_8b_1(TyB);
if (1) test_ursra_8b_8b_3(TyB);
if (1) test_ursra_8b_8b_8(TyB);
// sshll{2} (imm) 2d_2s/4s, 4s_4h/8h, 8h_8b/16b
// ushll{2} (imm) 2d_2s/4s, 4s_4h/8h, 8h_8b/16b
if (1) test_sshll_2d_2s_0(TyS);
if (1) test_sshll_2d_2s_15(TyS);
if (1) test_sshll_2d_2s_31(TyS);
if (1) test_sshll2_2d_4s_0(TyS);
if (1) test_sshll2_2d_4s_15(TyS);
if (1) test_sshll2_2d_4s_31(TyS);
if (1) test_sshll_4s_4h_0(TyH);
if (1) test_sshll_4s_4h_7(TyH);
if (1) test_sshll_4s_4h_15(TyH);
if (1) test_sshll2_4s_8h_0(TyH);
if (1) test_sshll2_4s_8h_7(TyH);
if (1) test_sshll2_4s_8h_15(TyH);
if (1) test_sshll_8h_8b_0(TyB);
if (1) test_sshll_8h_8b_3(TyB);
if (1) test_sshll_8h_8b_7(TyB);
if (1) test_sshll2_8h_16b_0(TyB);
if (1) test_sshll2_8h_16b_3(TyB);
if (1) test_sshll2_8h_16b_7(TyB);
if (1) test_ushll_2d_2s_0(TyS);
if (1) test_ushll_2d_2s_15(TyS);
if (1) test_ushll_2d_2s_31(TyS);
if (1) test_ushll2_2d_4s_0(TyS);
if (1) test_ushll2_2d_4s_15(TyS);
if (1) test_ushll2_2d_4s_31(TyS);
if (1) test_ushll_4s_4h_0(TyH);
if (1) test_ushll_4s_4h_7(TyH);
if (1) test_ushll_4s_4h_15(TyH);
if (1) test_ushll2_4s_8h_0(TyH);
if (1) test_ushll2_4s_8h_7(TyH);
if (1) test_ushll2_4s_8h_15(TyH);
if (1) test_ushll_8h_8b_0(TyB);
if (1) test_ushll_8h_8b_3(TyB);
if (1) test_ushll_8h_8b_7(TyB);
if (1) test_ushll2_8h_16b_0(TyB);
if (1) test_ushll2_8h_16b_3(TyB);
if (1) test_ushll2_8h_16b_7(TyB);
// suqadd d,s,h,b
// usqadd d,s,h,b
if (1) test_suqadd_d_d(TyD);
if (1) test_suqadd_s_s(TyS);
if (1) test_suqadd_h_h(TyH);
if (1) test_suqadd_b_b(TyB);
if (1) test_usqadd_d_d(TyD);
if (1) test_usqadd_s_s(TyS);
if (1) test_usqadd_h_h(TyH);
if (1) test_usqadd_b_b(TyB);
// suqadd 2d,4s,2s,8h,4h,16b,8b
// usqadd 2d,4s,2s,8h,4h,16b,8b
if (1) test_suqadd_2d_2d(TyD);
if (1) test_suqadd_4s_4s(TyS);
if (1) test_suqadd_2s_2s(TyS);
if (1) test_suqadd_8h_8h(TyH);
if (1) test_suqadd_4h_4h(TyH);
if (1) test_suqadd_16b_16b(TyB);
if (1) test_suqadd_8b_8b(TyB);
if (1) test_usqadd_2d_2d(TyD);
if (1) test_usqadd_4s_4s(TyS);
if (1) test_usqadd_2s_2s(TyS);
if (1) test_usqadd_8h_8h(TyH);
if (1) test_usqadd_4h_4h(TyH);
if (1) test_usqadd_16b_16b(TyB);
if (1) test_usqadd_8b_8b(TyB);
// tbl 8b_{16b}_8b, 16b_{16b}_16b
// tbl 8b_{16b,16b}_8b, 16b_{16b,16b}_16b
// tbl 8b_{16b,16b,16b}_8b, 16b_{16b,16b,16b}_16b
// tbl 8b_{16b,16b,16b,16b}_8b, 16b_{16b,16b,16b,16b}_16b
if (1) test_tbl_16b_1reg(TyB);
if (1) test_tbl_16b_2reg(TyB);
if (1) test_tbl_16b_3reg(TyB);
if (1) test_tbl_16b_4reg(TyB);
if (1) test_tbl_8b_1reg(TyB);
if (1) test_tbl_8b_2reg(TyB);
if (1) test_tbl_8b_3reg(TyB);
if (1) test_tbl_8b_4reg(TyB);
// tbx 8b_{16b}_8b, 16b_{16b}_16b
// tbx 8b_{16b,16b}_8b, 16b_{16b,16b}_16b
// tbx 8b_{16b,16b,16b}_8b, 16b_{16b,16b,16b}_16b
// tbx 8b_{16b,16b,16b,16b}_8b, 16b_{16b,16b,16b,16b}_16b
if (1) test_tbx_16b_1reg(TyB);
if (1) test_tbx_16b_2reg(TyB);
if (1) test_tbx_16b_3reg(TyB);
if (1) test_tbx_16b_4reg(TyB);
if (1) test_tbx_8b_1reg(TyB);
if (1) test_tbx_8b_2reg(TyB);
if (1) test_tbx_8b_3reg(TyB);
if (1) test_tbx_8b_4reg(TyB);
// trn1 2d,4s,2s,8h,4h,16b,8b
// trn2 2d,4s,2s,8h,4h,16b,8b
if (1) test_trn1_2d_2d_2d(TyD);
if (1) test_trn1_4s_4s_4s(TyS);
if (1) test_trn1_2s_2s_2s(TyS);
if (1) test_trn1_8h_8h_8h(TyH);
if (1) test_trn1_4h_4h_4h(TyH);
if (1) test_trn1_16b_16b_16b(TyB);
if (1) test_trn1_8b_8b_8b(TyB);
if (1) test_trn2_2d_2d_2d(TyD);
if (1) test_trn2_4s_4s_4s(TyS);
if (1) test_trn2_2s_2s_2s(TyS);
if (1) test_trn2_8h_8h_8h(TyH);
if (1) test_trn2_4h_4h_4h(TyH);
if (1) test_trn2_16b_16b_16b(TyB);
if (1) test_trn2_8b_8b_8b(TyB);
// urecpe 4s,2s
// ursqrte 4s,2s
if (1) test_urecpe_4s_4s(TyS);
if (1) test_urecpe_2s_2s(TyS);
if (1) test_ursqrte_4s_4s(TyS);
if (1) test_ursqrte_2s_2s(TyS);
// uzp1 2d,4s,2s,8h,4h,16b,8b
// uzp2 2d,4s,2s,8h,4h,16b,8b
// zip1 2d,4s,2s,8h,4h,16b,8b
// zip2 2d,4s,2s,8h,4h,16b,8b
if (1) test_uzp1_2d_2d_2d(TyD);
if (1) test_uzp1_4s_4s_4s(TyS);
if (1) test_uzp1_2s_2s_2s(TyS);
if (1) test_uzp1_8h_8h_8h(TyH);
if (1) test_uzp1_4h_4h_4h(TyH);
if (1) test_uzp1_16b_16b_16b(TyB);
if (1) test_uzp1_8b_8b_8b(TyB);
if (1) test_uzp2_2d_2d_2d(TyD);
if (1) test_uzp2_4s_4s_4s(TyS);
if (1) test_uzp2_2s_2s_2s(TyS);
if (1) test_uzp2_8h_8h_8h(TyH);
if (1) test_uzp2_4h_4h_4h(TyH);
if (1) test_uzp2_16b_16b_16b(TyB);
if (1) test_uzp2_8b_8b_8b(TyB);
if (1) test_zip1_2d_2d_2d(TyD);
if (1) test_zip1_4s_4s_4s(TyS);
if (1) test_zip1_2s_2s_2s(TyS);
if (1) test_zip1_8h_8h_8h(TyH);
if (1) test_zip1_4h_4h_4h(TyH);
if (1) test_zip1_16b_16b_16b(TyB);
if (1) test_zip1_8b_8b_8b(TyB);
if (1) test_zip2_2d_2d_2d(TyD);
if (1) test_zip2_4s_4s_4s(TyS);
if (1) test_zip2_2s_2s_2s(TyS);
if (1) test_zip2_8h_8h_8h(TyH);
if (1) test_zip2_4h_4h_4h(TyH);
if (1) test_zip2_16b_16b_16b(TyB);
if (1) test_zip2_8b_8b_8b(TyB);
// xtn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h
if (1) test_xtn_2s_2d(TyD);
if (1) test_xtn2_4s_2d(TyD);
if (1) test_xtn_4h_4s(TyS);
if (1) test_xtn2_8h_4s(TyS);
if (1) test_xtn_8b_8h(TyH);
if (1) test_xtn2_16b_8h(TyH);
// ======================== MEM ========================
// All the SIMD and FP memory tests are in none/tests/arm64/memory.c.
// ld1 (multiple 1-element structures to 1/2/3/4 regs)
// ld1 (single 1-element structure to one lane of 1 reg)
// ld1r (single 1-element structure and rep to all lanes of 1 reg)
// ld2 (multiple 2-element structures to 2 regs)
// ld2 (single 2-element structure to one lane of 2 regs)
// ld2r (single 2-element structure and rep to all lanes of 2 regs)
// ld3 (multiple 3-element structures to 3 regs)
// ld3 (single 3-element structure to one lane of 3 regs)
// ld3r (single 3-element structure and rep to all lanes of 3 regs)
// ld4 (multiple 4-element structures to 4 regs)
// ld4 (single 4-element structure to one lane of 4 regs)
// ld4r (single 4-element structure and rep to all lanes of 4 regs)
// ldnp q_q_addr,d_d_addr,s_s_addr (load pair w/ non-temporal hint)
// addr = reg + uimm7 * reg_size
// ldp q_q_addr,d_d_addr,s_s_addr (load pair)
// addr = [Xn|SP],#imm or [Xn|SP,#imm]! or [Xn|SP,#imm]
// ldr q,d,s,h,b from addr
// addr = [Xn|SP],#imm or [Xn|SP,#imm]! or [Xn|SP,#imm]
// ldr q,d,s from pc+#imm19
// ldr q,d,s,h,b from addr
// addr = [Xn|SP, R <extend> <shift]
// ldur q,d,s,h,b from addr
// addr = [Xn|SP,#imm] (unscaled offset)
// st1 (multiple 1-element structures from 1/2/3/4 regs)
// st1 (single 1-element structure for 1 lane of 1 reg)
// st2 (multiple 2-element structures from 2 regs)
// st2 (single 2-element structure from 1 lane of 2 regs)
// st3 (multiple 3-element structures from 3 regs)
// st3 (single 3-element structure from 1 lane of 3 regs)
// st4 (multiple 4-element structures from 4 regs)
// st4 (single 4-element structure from one lane of 4 regs)
// stnp q_q_addr, d_d_addr, s_s_addr
// addr = [Xn|SP, #imm]
// stp q_q_addr, d_d_addr, s_s_addr
// addr = [Xn|SP], #imm or [Xn|SP, #imm]! or [Xn|SP, #imm]
// str q,d,s,h,b_addr
// addr = [Xn|SP], #simm or [Xn|SP, #simm]! or [Xn|SP, #pimm]
// str q,d,s,h,b_addr
// addr = [Xn|SP, R <extend> <shift]
// stur q,d,s,h,b_addr
// addr = [Xn|SP,#imm] (unscaled offset)
// ======================== CRYPTO ========================
// These tests are believed to be correct but are disabled because
// GNU assembler (GNU Binutils) 2.24.0.20140311 Linaro 2014.03
// cannot be persuaded to accept those instructions (AFAICT).
// aesd 16b (aes single round decryption)
// aese 16b (aes single round encryption)
// aesimc 16b (aes inverse mix columns)
// aesmc 16b (aes mix columns)
//if (0) test_aesd_16b_16b(TyNONE);
//if (0) test_aese_16b_16b(TyNONE);
//if (0) test_aesimc_16b_16b(TyNONE);
//if (0) test_aesmc_16b_16b(TyNONE);
// sha1c q_s_4s
// sha1h s_s
// sha1m q_s_4s
// sha1p q_s_4s
// sha1su0 4s_4s_4s
// sha1su1 4s_4s
//if (0) test_sha1c_q_s_4s(TyNONE);
//if (0) test_sha1h_s_s(TyNONE);
//if (0) test_sha1m_q_s_4s(TyNONE);
//if (0) test_sha1p_q_s_4s(TyNONE);
//if (0) test_sha1su0_4s_4s_4s(TyNONE);
//if (0) test_sha1su1_4s_4s(TyNONE);
// sha256h2 q_q_4s
// sha256h q_q_4s
// sha256su0 4s_4s
// sha256su1 4s_4s_4s
//if (0) test_sha256h2_q_q_4s(TyNONE);
//if (0) test_sha256h_q_q_4s(TyNONE);
//if (0) test_sha256su0_4s_4s(TyNONE);
//if (0) test_sha256su1_4s_4s_4s(TyNONE);
return 0;
}
/* ---------------------------------------------------------------- */
/* -- Alphabetical list of insns -- */
/* ---------------------------------------------------------------- */
/*
abs d
abs 2d,4s,2s,8h,4h,16b,8b
add d
add 2d,4s,2s,8h,4h,16b,8b
addhn 2s.2d.2d, 4s.2d.2d, h_from_s and b_from_h (add and get high half)
addp d (add pairs, across)
addp 2d,4s,2s,8h,4h,16b,8b
addv 4s,8h,4h,16b,18b (reduce across vector)
aesd 16b (aes single round decryption)
aese 16b (aes single round encryption)
aesimc 16b (aes inverse mix columns)
aesmc 16b (aes mix columns)
and 16b,8b
bic 4s,2s,8h,4h (vector, imm)
also movi, mvni, orr
bic 16b,8b (vector,reg) (bit clear)
bif 16b,8b (vector) (bit insert if false)
bit 16b,8b (vector) (bit insert if true)
bsl 16b,8b (vector) (bit select)
cls 4s,2s,8h,4h,16b,8b (count leading sign bits)
clz 4s,2s,8h,4h,16b,8b (count leading zero bits)
cmeq d
cmeq 2d,4s,2s,8h,4h,16b,8b
cmeq_z d
cmeq_z 2d,4s,2s,8h,4h,16b,8b
cmge d
cmge 2d,4s,2s,8h,4h,16b,8b
cmge_z d
cmge_z 2d,4s,2s,8h,4h,16b,8b
cmgt d
cmgt 2d,4s,2s,8h,4h,16b,8b
cmgt_z d
cmgt_z 2d,4s,2s,8h,4h,16b,8b
cmhi d
cmhi 2d,4s,2s,8h,4h,16b,8b
cmhs d
cmhs 2d,4s,2s,8h,4h,16b,8b
cmle_z d
cmle_z 2d,4s,2s,8h,4h,16b,8b
cmlt_z d
cmlt_z 2d,4s,2s,8h,4h,16b,8b
cmtst d
cmtst 2d,4s,2s,8h,4h,16b,8b
cnt 16b,8b (population count per byte)
dup d,s,h,b (vec elem to scalar)
dup 2d,4s,2s,8h,4h,16b,8b (vec elem to vector)
dup 2d,4s,2s,8h,4h,16b,8b (general reg to vector)
eor 16b,8b (vector)
ext 16b,8b,#imm4 (concat 2 vectors, then slice)
fabd d,s
fabd 2d,4s,2s
fabs d,s
fabs 2d,4s,2s
facge s,d (floating abs compare GE)
facge 2d,4s,2s
facgt s,d (floating abs compare GE)
facgt 2d,4s,2s
fadd d,s
fadd 2d,4s,2s
faddp d,s (floating add pair)
faddp 2d,4s,2s
fccmp d,s (floating point conditional quiet compare)
fccmpe d,s (floating point conditional signaling compare)
fcmeq d,s
fcmeq 2d,4s,2s
fcmeq_z d,s
fcmeq_z 2d,4s,2s
fcmge d,s
fcmge 2d,4s,2s
fcmge_z d,s
fcmge_z 2d,4s,2s
fcmgt d,s
fcmgt 2d,4s,2s
fcmgt_z d,s
fcmgt_z 2d,4s,2s
fcmle_z d,s
fcmle_z 2d,4s,2s
fcmlt_z d,s
fcmlt_z 2d,4s,2s
fcmp d,s (floating point quiet, set flags)
fcmp_z d,s
fcmpe d,s (floating point signaling, set flags)
fcmpe_z d,s
fcsel d,s (fp cond select)
fcvt s_h,d_h,h_s,d_s,h_d,s_d (fp convert, scalar)
fcvtas d,s (fcvt to signed int, nearest, ties away)
fcvtas 2d,4s,2s
fcvtas w_s,x_s,w_d,x_d
fcvtau d,s (fcvt to unsigned int, nearest, ties away)
fcvtau 2d,4s,2s
fcvtau w_s,x_s,w_d,x_d
fcvtl{2} 4s/4h, 4s/8h, 2d/2s, 2d/4s (float convert to longer form)
fcvtms d,s (fcvt to signed int, minus inf)
fcvtms 2d,4s,2s
fcvtms w_s,x_s,w_d,x_d
fcvtmu d,s (fcvt to unsigned int, minus inf)
fcvtmu 2d,4s,2s
fcvtmu w_s,x_s,w_d,x_d
fcvtn{2} 4h/4s, 8h/4s, 2s/2d, 4s/2d (float convert to narrower form)
fcvtns d,s (fcvt to signed int, nearest)
fcvtns 2d,4s,2s
fcvtns w_s,x_s,w_d,x_d
fcvtnu d,s (fcvt to unsigned int, nearest)
fcvtnu 2d,4s,2s
fcvtnu w_s,x_s,w_d,x_d
fcvtps d,s (fcvt to signed int, plus inf)
fcvtps 2d,4s,2s
fcvtps w_s,x_s,w_d,x_d
fcvtpu d,s (fcvt to unsigned int, plus inf)
fcvtpu 2d,4s,2s
fcvtpu w_s,x_s,w_d,x_d
fcvtxn s_d (fcvt to lower prec narrow, rounding to odd)
fcvtxn 2s_2d,4s_2d
fcvtzs s,d (fcvt to signed fixedpt, to zero) (w/ #fbits)
fcvtzs 2d,4s,2s
fcvtzs s,d (fcvt to signed integer, to zero)
fcvtzs 2d,4s,2s
fcvtzs w_s,x_s,w_d,x_d (fcvt to signed fixedpt, to zero) (w/ #fbits)
fcvtzs w_s,x_s,w_d,x_d (fcvt to signed integer, to zero)
fcvtzu s,d (fcvt to unsigned fixedpt, to zero) (w/ #fbits)
fcvtzu 2d,4s,2s
fcvtzu s,d (fcvt to unsigned integer, to zero)
fcvtzu 2d,4s,2s
fcvtzu w_s,x_s,w_d,x_d (fcvt to unsigned fixedpt, to zero) (w/ #fbits)
fcvtzu w_s,x_s,w_d,x_d (fcvt to unsigned integer, to zero)
fdiv d,s
fdiv 2d,4s,2s
fmadd d,s
fnmadd d,s
fnmsub d,s
fnmul d,s
fmax d,s
fmin d,s
fmax 2d,4s,2s
fmin 2d,4s,2s
fmaxnm d,s ("max number")
fminnm d,s
fmaxnm 2d,4s,2s
fminnm 2d,4s,2s
fmaxnmp d_2d,s_2s ("max number pairwise")
fminnmp d_2d,s_2s
fmaxnmp 2d,4s,2s
fminnmp 2d,4s,2s
fmaxnmv s_4s (maxnum across vector)
fminnmv s_4s
fmaxp d_2d,s_2s (max of a pair)
fminp d_2d,s_2s (max of a pair)
fmaxp 2d,4s,2s (max pairwise)
fminp 2d,4s,2s
fmaxv s_4s (max across vector)
fminv s_4s
fmla d_d_d[],s_s_s[] (by element)
fmla 2d_2d_d[],4s_4s_s[],2s_2s_s[]
fmla 2d,4s,2s
fmls d_d_d[],s_s_s[] (by element)
fmls 2d_2d_d[],4s_4s_s[],2s_2s_s[]
fmls 2d,4s,2s
fmov 2d,4s,2s #imm (part of the MOVI/MVNI/ORR/BIC imm group)
fmov d_d,s_s
fmov s_w,w_s,d_x,d[1]_x,x_d,x_d[1]
fmov d,s #imm
fmsub d,s
fmul d_d_d[],s_s_s[]
fmul 2d_2d_d[],4s_4s_s[],2s_2s_s[]
fmul 2d,4s,2s
fmul d,s
fmulx d_d_d[],s_s_s[]
fmulx 2d_2d_d[],4s_4s_s[],2s_2s_s[]
fmulx d,s
fmulx 2d,4s,2s
fneg d,s
fneg 2d,4s,2s
frecpe d,s (recip estimate)
frecpe 2d,4s,2s
frecps d,s (recip step)
frecps 2d,4s,2s
frecpx d,s (recip exponent)
frinta 2d,4s,2s (round to integral, nearest away)
frinta d,s
frinti 2d,4s,2s (round to integral, per FPCR)
frinti d,s
frintm 2d,4s,2s (round to integral, minus inf)
frintm d,s
frintn 2d,4s,2s (round to integral, nearest, to even)
frintn d,s
frintp 2d,4s,2s (round to integral, plus inf)
frintp d,s
frintx 2d,4s,2s (round to integral exact, per FPCR)
frintx d,s
frintz 2d,4s,2s (round to integral, zero)
frintz d,s
frsqrte d,s (est)
frsqrte 2d,4s,2s
frsqrts d,s (step)
frsqrts 2d,4s,2s
fsqrt d,s
fsqrt 2d,4s,2s
fsub d,s
fsub 2d,4s,2s
ins d[]_d[],s[]_s[],h[]_h[],b[]_b[]
ins d[]_x, s[]_w, h[]_w, b[]_w
ld1 (multiple 1-element structures to 1/2/3/4 regs)
ld1 (single 1-element structure to one lane of 1 reg)
ld1r (single 1-element structure and rep to all lanes of 1 reg)
ld2 (multiple 2-element structures to 2 regs)
ld2 (single 2-element structure to one lane of 2 regs)
ld2r (single 2-element structure and rep to all lanes of 2 regs)
ld3 (multiple 3-element structures to 3 regs)
ld3 (single 3-element structure to one lane of 3 regs)
ld3r (single 3-element structure and rep to all lanes of 3 regs)
ld4 (multiple 4-element structures to 4 regs)
ld4 (single 4-element structure to one lane of 4 regs)
ld4r (single 4-element structure and rep to all lanes of 4 regs)
ldnp q_q_addr,d_d_addr,s_s_addr (load pair w/ non-temporal hint)
addr = reg + uimm7 * reg_size
ldp q_q_addr,d_d_addr,s_s_addr (load pair)
addr = [Xn|SP],#imm or [Xn|SP,#imm]! or [Xn|SP,#imm]
ldr q,d,s,h,b from addr
addr = [Xn|SP],#imm or [Xn|SP,#imm]! or [Xn|SP,#imm]
ldr q,d,s from pc+#imm19
ldr q,d,s,h,b from addr
addr = [Xn|SP, R <extend> <shift]
ldur q,d,s,h,b from addr
addr = [Xn|SP,#imm] (unscaled offset)
mla 4s_4s_s[],2s_2s_s[],8h_8h_h[],4h_4h_h[]
mla 4s,2s,8h,4h,16b,8b
mls 4s_4s_s[],2s_2s_s[],8h_8h_h[],4h_4h_h[]
mls 4s,2s,8h,4h,16b,8b
movi 16b,8b #imm8, LSL #0
movi 8h,4h #imm8, LSL #0 or 8
movi 4s,2s #imm8, LSL #0, 8, 16, 24
movi 4s,2s #imm8, MSL #8 or 16
movi d, #imm64
movi 2d, #imm64
mul 4s_4s_s[],2s_2s_s[],8h_8h_h[],4h_4h_h[]
mul 4s,2s,8h,4h,16b,8b
mvni 8h,4h #imm8, LSL #0 or 8
mvni 4s,2s #imm8, LSL #0, 8, 16, 24
mvni 4s,2s #imm8, MSL #8 or 16
neg d
neg 2d,4s,2s,8h,4h,16b,8b
not 16b,8b
orn 16b,8b
orr 8h,4h #imm8, LSL #0 or 8
orr 4s,2s #imm8, LSL #0, 8, 16 or 24
orr 16b,8b
pmul 16b,8b
pmull{2} 8h_8b_8b,8h_16b_16b,1q_1d_1d,1d_2d_2d
raddhn{2} 2s/4s_2d_2d, 4h/8h_4s_4s, 8b/16b_8h_8h
rbit 16b,8b
rev16 16b,8b
rev32 16b,8b,8h,4h
rev64 16b,8b,8h,4h,4s,2s
rshrn{2} 2s/4s_2d, 8h/4h_4s, 2s/4s_2d, #imm in 1 .. elem_bits
rsubhn{2} 2s/4s_2d_2d, 4h/8h_4s_4s, 8b/16b_8h_8h
saba 16b,8b,8h,4h,4s,2s
sabal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
sabd 16b,8b,8h,4h,4s,2s
sabdl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
sadalp 4h_8b,8h_16b,2s_4h,4s_8h,1d_2s,2d_4s
saddl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
saddlp 4h_8b,8h_16b,2s_4h,4s_8h,1d_2s,2d_4s
saddlv h_16b/8b, s_8h/4h, d_4s
saddw{2} 8h_8h_16b/8b, 4s_4s_8h/4h, 2d_2d_2s/4s
scvtf d,s _#fbits
scvtf 2d,4s,2s _#fbits
scvtf d,s
scvtf 2d,4s,2s
scvtf s_w, d_w, s_x, d_x, _#fbits
scvtf s_w, d_w, s_x, d_x
sha1c q_s_4s
sha1h s_s
sha1m q_s_4s
sha1p q_s_4s
sha1su0 4s_4s_4s
sha1su1 4s_4s
sha256h2 q_q_4s
sha256h q_q_4s
sha256su0 4s_4s
sha256su1 4s_4s_4s
shadd 16b,8b,8h,4h,4s,2s
shl d_#imm
shl 16b,8b,8h,4h,4s,2s,2d _#imm
shll{2} 8h_8b/16b_#8, 4s_4h/8h_#16, 2d_2s/4s_#32
shrn{2} 2s/4s_2d, 8h/4h_4s, 2s/4s_2d, #imm in 1 .. elem_bits
shsub 16b,8b,8h,4h,4s,2s
sli d_#imm
sli 2d,4s,2s,8h,4h,16b,8b _#imm
smax 4s,2s,8h,4h,16b,8b
smaxp 4s,2s,8h,4h,16b,8b
smaxv s_4s,h_8h,h_4h,b_16b,b_8b
smin 4s,2s,8h,4h,16b,8b
sminp 4s,2s,8h,4h,16b,8b
sminv s_4s,h_8h,h_4h,b_16b,b_8b
smlal{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
smlal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
smlsl{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
smlsl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
smov w_b[], w_h[], x_b[], x_h[], x_s[]
smull{2} 2d_2s/4s_s[]. 4s_4h/8h_h[]
smull{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
sqabs d,s,h,b
sqabs 2d,4s,2s,8h,4h,16b,8b
sqadd d,s,h,b
sqadd 2d,4s,2s,8h,4h,16b,8b
sqdmlal d_s_s[], s_h_h[]
sqdmlal{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
sqdmlal d_s_s, s_h_h
sqdmlal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h)
sqdmlsl d_s_s[], s_h_h[]
sqdmlsl{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
sqdmlsl d_s_s, s_h_h
sqdmlsl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h)
sqdmulh s_s_s[], h_h_h[]
sqdmulh 4s_4s_s[], 2s_2s_s[], 8h_8h_h[], 4h_4h_h[]
sqdmulh h,s
sqdmulh 4s,2s,8h,4h
sqdmull d_s_s[], s_h_h[]
sqdmull{2} 2d_2s/4s_s[], 4s_4h/2h_h[]
sqdmull d_s_s,s_h_h
sqdmull{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h)
sqneg d,s,h,b
sqneg 2d,4s,2s,8h,4h,16b,8b
sqrdmulh s_s_s[], h_h_h[]
sqrdmulh 4s_4s_s[], 2s_2s_s[], 8h_8h_h[], 4h_4h_h[]
sqrdmulh h,s
sqrdmulh 4s,2s,8h,4h
sqrshl d,s,h,b
sqrshl 2d,4s,2s,8h,4h,16b,8b
sqrshrn s_d, h_s, b_h #imm
sqrshrn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
sqrshrun s_d, h_s, b_h #imm
sqrshrun{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
sqshl d,s,h,b _#imm
sqshl 2d,4s,2s,8h,4h,16b,8b _#imm
sqshl d,s,h,b
sqshl 2d,4s,2s,8h,4h,16b,8b
sqshlu d,s,h,b _#imm
sqshlu 2d,4s,2s,8h,4h,16b,8b _#imm
sqshrn s_d, h_s, b_h #imm
sqshrn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
sqshrun s_d, h_s, b_h #imm
sqshrun{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
sqsub d,s,h,b
sqsub 2d,4s,2s,8h,4h,16b,8b
sqxtn s_d,h_s,b_h
sqxtn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h
sqxtun s_d,h_s,b_h
sqxtun{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h
srhadd 4s,2s,8h,4h,16b,8b
sri d_#imm
sri 2d,4s,2s,8h,4h,16b,8b _#imm
srshl (reg) d
srshl 2d,4s,2s,8h,4h,16b,8b
srshr (imm) d
srshr 2d,4s,2s,8h,4h,16b,8b
srsra (imm) d
srsra 2d,4s,2s,8h,4h,16b,8b
sshl (reg) d
sshl 2d,4s,2s,8h,4h,16b,8b
sshll{2} (imm) 2d_2s/4s 4s_4h/8h, 8h_8b/16b
sshr (imm) d
sshr 2d,4s,2s,8h,4h,16b,8b
ssra (imm) d
ssra 2d,4s,2s,8h,4h,16b,8b
ssubl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
ssubw{2} 8h_8h_16b/8b, 4s_4s_8h/4h, 2d_2d_2s/4s
st1 (multiple 1-element structures from 1/2/3/4 regs)
st1 (single 1-element structure for 1 lane of 1 reg)
st2 (multiple 2-element structures from 2 regs)
st2 (single 2-element structure from 1 lane of 2 regs)
st3 (multiple 3-element structures from 3 regs)
st3 (single 3-element structure from 1 lane of 3 regs)
st4 (multiple 4-element structures from 4 regs)
st4 (single 4-element structure from one lane of 4 regs)
stnp q_q_addr, d_d_addr, s_s_addr
addr = [Xn|SP, #imm]
stp q_q_addr, d_d_addr, s_s_addr
addr = [Xn|SP], #imm or [Xn|SP, #imm]! or [Xn|SP, #imm]
str q,d,s,h,b_addr
addr = [Xn|SP], #simm or [Xn|SP, #simm]! or [Xn|SP, #pimm]
str q,d,s,h,b_addr
addr = [Xn|SP, R <extend> <shift]
stur q,d,s,h,b_addr
addr = [Xn|SP,#imm] (unscaled offset)
sub d
sub 2d,4s,2s,8h,4h,16b,8b
subhn{2} 2s/4s_2d_2d, 4h/8h_4s_4s, 8b/16b_8h_8h
suqadd d,s,h,b
suqadd 2d,4s,2s,8h,4h,16b,8b
tbl 8b_{16b}_8b, 16b_{16b}_16b
tbl 8b_{16b,16b}_8b, 16b_{16b,16b}_16b
tbl 8b_{16b,16b,16b}_8b, 16b_{16b,16b,16b}_16b
tbl 8b_{16b,16b,16b,16b}_8b, 16b_{16b,16b,16b,16b}_16b
tbx 8b_{16b}_8b, 16b_{16b}_16b
tbx 8b_{16b,16b}_8b, 16b_{16b,16b}_16b
tbx 8b_{16b,16b,16b}_8b, 16b_{16b,16b,16b}_16b
tbx 8b_{16b,16b,16b,16b}_8b, 16b_{16b,16b,16b,16b}_16b
trn1 2d,4s,2s,8h,4h,16b,8b
trn2 2d,4s,2s,8h,4h,16b,8b
uaba 16b,8b,8h,4h,4s,2s
uabal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
uabd 16b,8b,8h,4h,4s,2s
uabdl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
uadalp 4h_8b,8h_16b,2s_4h,4s_8h,1d_2s,2d_4s
uaddl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
uaddlp 4h_8b,8h_16b,2s_4h,4s_8h,1d_2s,2d_4s
uaddlv h_16b/8b, s_8h/4h, d_4s
uaddw{2} 8h_8h_16b/8b, 4s_4s_8h/4h, 2d_2d_2s/4s
ucvtf d,s _#fbits
ucvtf 2d,4s,2s _#fbits
ucvtf d,s
ucvtf 2d,4s,2s
ucvtf s_w, d_w, s_x, d_x, _#fbits
ucvtf s_w, d_w, s_x, d_x
uhadd 16b,8b,8h,4h,4s,2s
uhsub 16b,8b,8h,4h,4s,2s
umax 4s,2s,8h,4h,16b,8b
umaxp 4s,2s,8h,4h,16b,8b
umaxv s_4s,h_8h,h_4h,b_16b,b_8b
umin 4s,2s,8h,4h,16b,8b
uminp 4s,2s,8h,4h,16b,8b
uminv s_4s,h_8h,h_4h,b_16b,b_8b
umlal{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
umlal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
umlsl{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
umlsl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
umov w_b[], w_h[], x_b[], x_h[], x_s[]
umull{2} 2d_2s/4s_s[]. 4s_4h/8h_h[]
umull{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
uqadd d,s,h,b
uqadd 2d,4s,2s,8h,4h,16b,8b
uqrshl d,s,h,b
uqrshl 2d,4s,2s,8h,4h,16b,8b
uqrshrn s_d, h_s, b_h #imm
uqrshrn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
uqshl d,s,h,b _#imm
uqshl 2d,4s,2s,8h,4h,16b,8b _#imm
uqshl d,s,h,b
uqshl 2d,4s,2s,8h,4h,16b,8b
uqshrn s_d, h_s, b_h #imm
uqshrn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
uqsub d,s,h,b
uqsub 2d,4s,2s,8h,4h,16b,8b
uqxtn s_d,h_s,b_h
uqxtn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h
urecpe 4s,2s
urhadd 4s,2s,8h,4h,16b,8b
urshl (reg) d
urshl 2d,4s,2s,8h,4h,16b,8b
urshr (imm) d
urshr 2d,4s,2s,8h,4h,16b,8b
ursqrte 4s,2s
ursra (imm) d
ursra 2d,4s,2s,8h,4h,16b,8b
ushl (reg) d
ushl 2d,4s,2s,8h,4h,16b,8b
ushll{2} (imm) 2d_2s/4s 4s_4h/8h, 8h_8b/16b
ushr (imm) d
ushr 2d,4s,2s,8h,4h,16b,8b
usqadd d,s,h,b
usqadd 2d,4s,2s,8h,4h,16b,8b
usra (imm) d
usra 2d,4s,2s,8h,4h,16b,8b
usubl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
usubw{2} 8h_8h_16b/8b, 4s_4s_8h/4h, 2d_2d_2s/4s
uzp1 2d,4s,2s,8h,4h,16b,8b
uzp2 2d,4s,2s,8h,4h,16b,8b
xtn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h
zip1 2d,4s,2s,8h,4h,16b,8b
zip2 2d,4s,2s,8h,4h,16b,8b
*/
/* ---------------------------------------------------------------- */
/* -- List of insns, grouped somewhat by laneage configuration -- */
/* ---------------------------------------------------------------- */
/*
======================== FP ========================
fabs d,s
fabs 2d,4s,2s
fneg d,s
fneg 2d,4s,2s
fsqrt d,s
fsqrt 2d,4s,2s
fadd d,s
fsub d,s
fadd 2d,4s,2s
fsub 2d,4s,2s
fabd d,s
fabd 2d,4s,2s
faddp d,s (floating add pair)
faddp 2d,4s,2s
fccmp d,s (floating point conditional quiet compare)
fccmpe d,s (floating point conditional signaling compare)
fcmeq d,s
fcmge d,s
fcmgt d,s
facgt d,s (floating abs compare GE)
facge d,s (floating abs compare GE)
fcmeq 2d,4s,2s
fcmge 2d,4s,2s
fcmgt 2d,4s,2s
facge 2d,4s,2s
facgt 2d,4s,2s
fcmeq_z d,s
fcmge_z d,s
fcmgt_z d,s
fcmle_z d,s
fcmlt_z d,s
fcmeq_z 2d,4s,2s
fcmge_z 2d,4s,2s
fcmgt_z 2d,4s,2s
fcmle_z 2d,4s,2s
fcmlt_z 2d,4s,2s
fcmp_z d,s
fcmpe_z d,s
fcmp d,s (floating point quiet, set flags)
fcmpe d,s (floating point signaling, set flags)
fcsel d,s (fp cond select)
fdiv d,s
fdiv 2d,4s,2s
fmadd d,s
fnmadd d,s
fmsub d,s
fnmsub d,s
fnmul d,s
fmax d,s
fmin d,s
fmaxnm d,s ("max number")
fminnm d,s
fmax 2d,4s,2s
fmin 2d,4s,2s
fmaxnm 2d,4s,2s
fminnm 2d,4s,2s
fmaxnmp d_2d,s_2s ("max number pairwise")
fminnmp d_2d,s_2s
fmaxnmp 2d,4s,2s
fminnmp 2d,4s,2s
fmaxnmv s_4s (maxnum across vector)
fminnmv s_4s
fmaxp d_2d,s_2s (max of a pair)
fminp d_2d,s_2s (max of a pair)
fmaxp 2d,4s,2s (max pairwise)
fminp 2d,4s,2s
fmaxv s_4s (max across vector)
fminv s_4s
fmla 2d,4s,2s
fmls 2d,4s,2s
fmla d_d_d[],s_s_s[] (by element)
fmls d_d_d[],s_s_s[] (by element)
fmla 2d_2d_d[],4s_4s_s[],2s_2s_s[]
fmls 2d_2d_d[],4s_4s_s[],2s_2s_s[]
fmov 2d,4s,2s #imm (part of the MOVI/MVNI/ORR/BIC imm group)
fmov d_d,s_s
fmov s_w,w_s,d_x,d[1]_x,x_d,x_d[1]
fmov d,s #imm
fmul d_d_d[],s_s_s[]
fmul 2d_2d_d[],4s_4s_s[],2s_2s_s[]
fmul 2d,4s,2s
fmul d,s
fmulx d_d_d[],s_s_s[]
fmulx 2d_2d_d[],4s_4s_s[],2s_2s_s[]
fmulx d,s
fmulx 2d,4s,2s
frecpe d,s (recip estimate)
frecpe 2d,4s,2s
frecps d,s (recip step)
frecps 2d,4s,2s
frecpx d,s (recip exponent)
frinta d,s
frinti d,s
frintm d,s
frintn d,s
frintp d,s
frintx d,s
frintz d,s
frinta 2d,4s,2s (round to integral, nearest away)
frinti 2d,4s,2s (round to integral, per FPCR)
frintm 2d,4s,2s (round to integral, minus inf)
frintn 2d,4s,2s (round to integral, nearest, to even)
frintp 2d,4s,2s (round to integral, plus inf)
frintx 2d,4s,2s (round to integral exact, per FPCR)
frintz 2d,4s,2s (round to integral, zero)
frsqrte d,s (est)
frsqrte 2d,4s,2s
frsqrts d,s (step)
frsqrts 2d,4s,2s
======================== CONV ========================
fcvt s_h,d_h,h_s,d_s,h_d,s_d (fp convert, scalar)
fcvtl{2} 4s/4h, 4s/8h, 2d/2s, 2d/4s (float convert to longer form)
fcvtn{2} 4h/4s, 8h/4s, 2s/2d, 4s/2d (float convert to narrower form)
fcvtas d,s (fcvt to signed int, nearest, ties away)
fcvtau d,s (fcvt to unsigned int, nearest, ties away)
fcvtas 2d,4s,2s
fcvtau 2d,4s,2s
fcvtas w_s,x_s,w_d,x_d
fcvtau w_s,x_s,w_d,x_d
fcvtms d,s (fcvt to signed int, minus inf)
fcvtmu d,s (fcvt to unsigned int, minus inf)
fcvtms 2d,4s,2s
fcvtmu 2d,4s,2s
fcvtms w_s,x_s,w_d,x_d
fcvtmu w_s,x_s,w_d,x_d
fcvtns d,s (fcvt to signed int, nearest)
fcvtnu d,s (fcvt to unsigned int, nearest)
fcvtns 2d,4s,2s
fcvtnu 2d,4s,2s
fcvtns w_s,x_s,w_d,x_d
fcvtnu w_s,x_s,w_d,x_d
fcvtps d,s (fcvt to signed int, plus inf)
fcvtpu d,s (fcvt to unsigned int, plus inf)
fcvtps 2d,4s,2s
fcvtpu 2d,4s,2s
fcvtps w_s,x_s,w_d,x_d
fcvtpu w_s,x_s,w_d,x_d
fcvtzs d,s (fcvt to signed integer, to zero)
fcvtzu d,s (fcvt to unsigned integer, to zero)
fcvtzs 2d,4s,2s
fcvtzu 2d,4s,2s
fcvtzs w_s,x_s,w_d,x_d
fcvtzu w_s,x_s,w_d,x_d
fcvtzs d,s (fcvt to signed fixedpt, to zero) (w/ #fbits)
fcvtzu d,s (fcvt to unsigned fixedpt, to zero) (w/ #fbits)
fcvtzs 2d,4s,2s
fcvtzu 2d,4s,2s
fcvtzs w_s,x_s,w_d,x_d (fcvt to signed fixedpt, to zero) (w/ #fbits)
fcvtzu w_s,x_s,w_d,x_d (fcvt to unsigned fixedpt, to zero) (w/ #fbits)
fcvtxn s_d (fcvt to lower prec narrow, rounding to odd)
fcvtxn 2s_2d,4s_2d
scvtf d,s _#fbits
ucvtf d,s _#fbits
scvtf 2d,4s,2s _#fbits
ucvtf 2d,4s,2s _#fbits
scvtf d,s
ucvtf d,s
scvtf 2d,4s,2s
ucvtf 2d,4s,2s
scvtf s_w, d_w, s_x, d_x, _#fbits
ucvtf s_w, d_w, s_x, d_x, _#fbits
scvtf s_w, d_w, s_x, d_x
ucvtf s_w, d_w, s_x, d_x
======================== INT ========================
abs d
neg d
abs 2d,4s,2s,8h,4h,16b,8b
neg 2d,4s,2s,8h,4h,16b,8b
add d
sub d
add 2d,4s,2s,8h,4h,16b,8b
sub 2d,4s,2s,8h,4h,16b,8b
addhn{2} 2s/4s_2d_2d, 4h/8h_4s_4s, 8b/16b_8h_8h
subhn{2} 2s/4s_2d_2d, 4h/8h_4s_4s, 8b/16b_8h_8h
raddhn{2} 2s/4s_2d_2d, 4h/8h_4s_4s, 8b/16b_8h_8h
rsubhn{2} 2s/4s_2d_2d, 4h/8h_4s_4s, 8b/16b_8h_8h
addp d (add pairs, across)
addp 2d,4s,2s,8h,4h,16b,8b
addv 4s,8h,4h,16b,18b (reduce across vector)
and 16b,8b
orr 8h,4h #imm8, LSL #0 or 8
orr 4s,2s #imm8, LSL #0, 8, 16 or 24
bic 8h,4h #imm8, LSL #0 or 8
bic 4s,2s #imm8, LSL #0, 8, 16 or 24
also movi, mvni
bic 16b,8b (vector,reg) (bit clear)
bif 16b,8b (vector) (bit insert if false)
bit 16b,8b (vector) (bit insert if true)
bsl 16b,8b (vector) (bit select)
cls 4s,2s,8h,4h,16b,8b (count leading sign bits)
clz 4s,2s,8h,4h,16b,8b (count leading zero bits)
cmeq d
cmge d
cmgt d
cmhi d
cmhs d
cmtst d
cmeq 2d,4s,2s,8h,4h,16b,8b
cmge 2d,4s,2s,8h,4h,16b,8b
cmgt 2d,4s,2s,8h,4h,16b,8b
cmhi 2d,4s,2s,8h,4h,16b,8b
cmhs 2d,4s,2s,8h,4h,16b,8b
cmtst 2d,4s,2s,8h,4h,16b,8b
cmeq_z d
cmge_z d
cmgt_z d
cmle_z d
cmlt_z d
cmeq_z 2d,4s,2s,8h,4h,16b,8b
cmge_z 2d,4s,2s,8h,4h,16b,8b
cmgt_z 2d,4s,2s,8h,4h,16b,8b
cmle_z 2d,4s,2s,8h,4h,16b,8b
cmlt_z 2d,4s,2s,8h,4h,16b,8b
cnt 16b,8b (population count per byte)
dup d,s,h,b (vec elem to scalar)
dup 2d,4s,2s,8h,4h,16b,8b (vec elem to vector)
dup 2d,4s,2s,8h,4h,16b,8b (general reg to vector)
eor 16b,8b (vector)
ext 16b,8b,#imm4 (concat 2 vectors, then slice)
ins d[]_d[],s[]_s[],h[]_h[],b[]_b[]
ins d[]_x, s[]_w, h[]_w, b[]_w
mla 4s_4s_s[],2s_2s_s[],8h_8h_h[],4h_4h_h[]
mla 4s,2s,8h,4h,16b,8b
mls 4s_4s_s[],2s_2s_s[],8h_8h_h[],4h_4h_h[]
mls 4s,2s,8h,4h,16b,8b
movi 16b,8b #imm8, LSL #0
movi 8h,4h #imm8, LSL #0 or 8
movi 4s,2s #imm8, LSL #0, 8, 16, 24
movi 4s,2s #imm8, MSL #8 or 16
movi d, #imm64
movi 2d, #imm64
mul 4s_4s_s[],2s_2s_s[],8h_8h_h[],4h_4h_h[]
mul 4s,2s,8h,4h,16b,8b
mvni 8h,4h #imm8, LSL #0 or 8
mvni 4s,2s #imm8, LSL #0, 8, 16, 24
mvni 4s,2s #imm8, MSL #8 or 16
not 16b,8b
orn 16b,8b
orr 16b,8b
pmul 16b,8b
pmull{2} 8h_8b_8b,8h_16b_16b,1q_1d_1d,1d_2d_2d
rbit 16b,8b
rev16 16b,8b
rev32 16b,8b,8h,4h
rev64 16b,8b,8h,4h,4s,2s
saba 16b,8b,8h,4h,4s,2s
uaba 16b,8b,8h,4h,4s,2s
sabal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
uabal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
sabd 16b,8b,8h,4h,4s,2s
uabd 16b,8b,8h,4h,4s,2s
sabdl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
uabdl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
sadalp 4h_8b,8h_16b,2s_4h,4s_8h,1d_2s,2d_4s
uadalp 4h_8b,8h_16b,2s_4h,4s_8h,1d_2s,2d_4s
saddl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
uaddl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
ssubl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
usubl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
saddlp 4h_8b,8h_16b,2s_4h,4s_8h,1d_2s,2d_4s
uaddlp 4h_8b,8h_16b,2s_4h,4s_8h,1d_2s,2d_4s
saddlv h_16b/8b, s_8h/4h, d_4s
uaddlv h_16b/8b, s_8h/4h, d_4s
saddw{2} 8h_8h_16b/8b, 4s_4s_8h/4h, 2d_2d_2s/4s
uaddw{2} 8h_8h_16b/8b, 4s_4s_8h/4h, 2d_2d_2s/4s
ssubw{2} 8h_8h_16b/8b, 4s_4s_8h/4h, 2d_2d_2s/4s
usubw{2} 8h_8h_16b/8b, 4s_4s_8h/4h, 2d_2d_2s/4s
shadd 16b,8b,8h,4h,4s,2s
uhadd 16b,8b,8h,4h,4s,2s
shsub 16b,8b,8h,4h,4s,2s
uhsub 16b,8b,8h,4h,4s,2s
shl d_#imm
shl 16b,8b,8h,4h,4s,2s,2d _#imm
shll{2} 8h_8b/16b_#8, 4s_4h/8h_#16, 2d_2s/4s_#32
shrn{2} 2s/4s_2d, 8h/4h_4s, 2s/4s_2d, #imm in 1 .. elem_bits
rshrn{2} 2s/4s_2d, 8h/4h_4s, 2s/4s_2d, #imm in 1 .. elem_bits
sli d_#imm
sri d_#imm
sli 2d,4s,2s,8h,4h,16b,8b _#imm
sri 2d,4s,2s,8h,4h,16b,8b _#imm
smax 4s,2s,8h,4h,16b,8b
umax 4s,2s,8h,4h,16b,8b
smin 4s,2s,8h,4h,16b,8b
umin 4s,2s,8h,4h,16b,8b
smaxp 4s,2s,8h,4h,16b,8b
umaxp 4s,2s,8h,4h,16b,8b
sminp 4s,2s,8h,4h,16b,8b
uminp 4s,2s,8h,4h,16b,8b
smaxv s_4s,h_8h,h_4h,b_16b,b_8b
umaxv s_4s,h_8h,h_4h,b_16b,b_8b
sminv s_4s,h_8h,h_4h,b_16b,b_8b
uminv s_4s,h_8h,h_4h,b_16b,b_8b
smlal{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
umlal{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
smlsl{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
umlsl{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
smull{2} 2d_2s/4s_s[]. 4s_4h/8h_h[]
umull{2} 2d_2s/4s_s[]. 4s_4h/8h_h[]
smlal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
umlal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
smlsl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
umlsl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
smull{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
umull{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h), 8h_(8b_8b)/(16b_16b)
smov w_b[], w_h[], x_b[], x_h[], x_s[]
umov w_b[], w_h[], x_b[], x_h[], x_s[]
sqabs d,s,h,b
sqneg d,s,h,b
sqabs 2d,4s,2s,8h,4h,16b,8b
sqneg 2d,4s,2s,8h,4h,16b,8b
sqadd d,s,h,b
uqadd d,s,h,b
sqsub d,s,h,b
uqsub d,s,h,b
sqadd 2d,4s,2s,8h,4h,16b,8b
uqadd 2d,4s,2s,8h,4h,16b,8b
sqsub 2d,4s,2s,8h,4h,16b,8b
uqsub 2d,4s,2s,8h,4h,16b,8b
sqdmlal d_s_s[], s_h_h[]
sqdmlsl d_s_s[], s_h_h[]
sqdmull d_s_s[], s_h_h[]
sqdmlal{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
sqdmlsl{2} 2d_2s/4s_s[], 4s_4h/8h_h[]
sqdmull{2} 2d_2s/4s_s[], 4s_4h/2h_h[]
sqdmlal d_s_s, s_h_h
sqdmlsl d_s_s, s_h_h
sqdmull d_s_s, s_h_h
sqdmlal{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h)
sqdmlsl{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h)
sqdmull{2} 2d_(2s_2s)/(4s_4s), 4s_(4h_4h)/(8h_8h)
sqdmulh s_s_s[], h_h_h[]
sqrdmulh s_s_s[], h_h_h[]
sqdmulh 4s_4s_s[], 2s_2s_s[], 8h_8h_h[], 4h_4h_h[]
sqrdmulh 4s_4s_s[], 2s_2s_s[], 8h_8h_h[], 4h_4h_h[]
sqdmulh h,s
sqrdmulh h,s
sqdmulh 4s,2s,8h,4h
sqrdmulh 4s,2s,8h,4h
sqshl d,s,h,b
uqshl d,s,h,b
sqrshl d,s,h,b
uqrshl d,s,h,b
sqshl 2d,4s,2s,8h,4h,16b,8b
uqshl 2d,4s,2s,8h,4h,16b,8b
sqrshl 2d,4s,2s,8h,4h,16b,8b
uqrshl 2d,4s,2s,8h,4h,16b,8b
sqrshrn s_d, h_s, b_h #imm
uqrshrn s_d, h_s, b_h #imm
sqshrn s_d, h_s, b_h #imm
uqshrn s_d, h_s, b_h #imm
sqrshrun s_d, h_s, b_h #imm
sqshrun s_d, h_s, b_h #imm
sqrshrn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
uqrshrn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
sqshrn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
uqshrn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
sqrshrun{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
sqshrun{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h, #imm
sqshl d,s,h,b _#imm
uqshl d,s,h,b _#imm
sqshlu d,s,h,b _#imm
sqshl 2d,4s,2s,8h,4h,16b,8b _#imm
uqshl 2d,4s,2s,8h,4h,16b,8b _#imm
sqshlu 2d,4s,2s,8h,4h,16b,8b _#imm
sqxtn s_d,h_s,b_h
uqxtn s_d,h_s,b_h
sqxtun s_d,h_s,b_h
sqxtn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h
uqxtn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h
sqxtun{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h
srhadd 4s,2s,8h,4h,16b,8b
urhadd 4s,2s,8h,4h,16b,8b
sshl (reg) d
ushl (reg) d
sshr (imm) d
ushr (imm) d
ssra (imm) d
usra (imm) d
srshl (reg) d
urshl (reg) d
srshr (imm) d
urshr (imm) d
srsra (imm) d
ursra (imm) d
sshl 2d,4s,2s,8h,4h,16b,8b
ushl 2d,4s,2s,8h,4h,16b,8b
sshr 2d,4s,2s,8h,4h,16b,8b
ushr 2d,4s,2s,8h,4h,16b,8b
ssra 2d,4s,2s,8h,4h,16b,8b
usra 2d,4s,2s,8h,4h,16b,8b
srshl 2d,4s,2s,8h,4h,16b,8b
urshl 2d,4s,2s,8h,4h,16b,8b
srshr 2d,4s,2s,8h,4h,16b,8b
urshr 2d,4s,2s,8h,4h,16b,8b
srsra 2d,4s,2s,8h,4h,16b,8b
ursra 2d,4s,2s,8h,4h,16b,8b
sshll{2} (imm) 2d_2s/4s 4s_4h/8h, 8h_8b/16b
ushll{2} (imm) 2d_2s/4s 4s_4h/8h, 8h_8b/16b
suqadd d,s,h,b
suqadd 2d,4s,2s,8h,4h,16b,8b
tbl 8b_{16b}_8b, 16b_{16b}_16b
tbl 8b_{16b,16b}_8b, 16b_{16b,16b}_16b
tbl 8b_{16b,16b,16b}_8b, 16b_{16b,16b,16b}_16b
tbl 8b_{16b,16b,16b,16b}_8b, 16b_{16b,16b,16b,16b}_16b
tbx 8b_{16b}_8b, 16b_{16b}_16b
tbx 8b_{16b,16b}_8b, 16b_{16b,16b}_16b
tbx 8b_{16b,16b,16b}_8b, 16b_{16b,16b,16b}_16b
tbx 8b_{16b,16b,16b,16b}_8b, 16b_{16b,16b,16b,16b}_16b
trn1 2d,4s,2s,8h,4h,16b,8b
trn2 2d,4s,2s,8h,4h,16b,8b
urecpe 4s,2s
ursqrte 4s,2s
usqadd d,s,h,b
usqadd 2d,4s,2s,8h,4h,16b,8b
uzp1 2d,4s,2s,8h,4h,16b,8b
uzp2 2d,4s,2s,8h,4h,16b,8b
xtn{2} 2s/4s_2d, 4h/8h_4s, 8b/16b_8h
zip1 2d,4s,2s,8h,4h,16b,8b
zip2 2d,4s,2s,8h,4h,16b,8b
======================== MEM ========================
ld1 (multiple 1-element structures to 1/2/3/4 regs)
ld1 (single 1-element structure to one lane of 1 reg)
ld1r (single 1-element structure and rep to all lanes of 1 reg)
ld2 (multiple 2-element structures to 2 regs)
ld2 (single 2-element structure to one lane of 2 regs)
ld2r (single 2-element structure and rep to all lanes of 2 regs)
ld3 (multiple 3-element structures to 3 regs)
ld3 (single 3-element structure to one lane of 3 regs)
ld3r (single 3-element structure and rep to all lanes of 3 regs)
ld4 (multiple 4-element structures to 4 regs)
ld4 (single 4-element structure to one lane of 4 regs)
ld4r (single 4-element structure and rep to all lanes of 4 regs)
ldnp q_q_addr,d_d_addr,s_s_addr (load pair w/ non-temporal hint)
addr = reg + uimm7 * reg_size
ldp q_q_addr,d_d_addr,s_s_addr (load pair)
addr = [Xn|SP],#imm or [Xn|SP,#imm]! or [Xn|SP,#imm]
ldr q,d,s,h,b from addr
addr = [Xn|SP],#imm or [Xn|SP,#imm]! or [Xn|SP,#imm]
ldr q,d,s from pc+#imm19
ldr q,d,s,h,b from addr
addr = [Xn|SP, R <extend> <shift]
ldur q,d,s,h,b from addr
addr = [Xn|SP,#imm] (unscaled offset)
st1 (multiple 1-element structures from 1/2/3/4 regs)
st1 (single 1-element structure for 1 lane of 1 reg)
st2 (multiple 2-element structures from 2 regs)
st2 (single 2-element structure from 1 lane of 2 regs)
st3 (multiple 3-element structures from 3 regs)
st3 (single 3-element structure from 1 lane of 3 regs)
st4 (multiple 4-element structures from 4 regs)
st4 (single 4-element structure from one lane of 4 regs)
stnp q_q_addr, d_d_addr, s_s_addr
addr = [Xn|SP, #imm]
stp q_q_addr, d_d_addr, s_s_addr
addr = [Xn|SP], #imm or [Xn|SP, #imm]! or [Xn|SP, #imm]
str q,d,s,h,b_addr
addr = [Xn|SP], #simm or [Xn|SP, #simm]! or [Xn|SP, #pimm]
str q,d,s,h,b_addr
addr = [Xn|SP, R <extend> <shift]
stur q,d,s,h,b_addr
addr = [Xn|SP,#imm] (unscaled offset)
======================== CRYPTO ========================
aesd 16b (aes single round decryption)
aese 16b (aes single round encryption)
aesimc 16b (aes inverse mix columns)
aesmc 16b (aes mix columns)
sha1c q_s_4s
sha1h s_s
sha1m q_s_4s
sha1p q_s_4s
sha1su0 4s_4s_4s
sha1su1 4s_4s
sha256h2 q_q_4s
sha256h q_q_4s
sha256su0 4s_4s
sha256su1 4s_4s_4s
*/